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الموسوعة العربية ألمراض النبات والفطريات
Arabic Encyclopedia of Plant Pathology &Fungi
إعداد الدكتور محمد عبد الخالق الحمداني
Mohammed AL- Hamdany
متخصص الفطريات العراقي سيرة
Prof. Abdulla, Samir Khalaf
)أمراض نبات( .Part III الثالثالجزء
Pages Codes Contents
محتويات الجزء األول
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محتويات الجزء الثاني
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)أمراض نبات(مكونات الجزء الثالث الحالي
3 SIII-1 القابلية االمراضية للفطرPhaeoacremonium aleophilum على صنفين
العراق -منطقة كردستانمن العنب في
6 SIII-2 التشخيص المظهري والجزيئي للفطرPhaeoacremonium aleophilum
العراق –هور كروم العنب في محافضة دهوك تدالمرتبط بظاهرة
8 SIII-3 تشخيص السالالت الفسيولوجية للفطر المسبب للذبول الفيوزارمي على البطيخ في
جنوب العراق
11 SIII-4 دراسات على الذبول الفيوزارمي في الطماطة في العراقII نباتات غير العائل .
تحمل الفطر المسبب في منطقة البصرة
13 SIII-5 مسح وعزل وتشخيص مسببات موت بادرات الطماطة في مزارع الزبير وسفوان
في البصرة
16 SIII-6 تواجد الفطرينThielaviopsis paradoxa وThielaviopsis punctulata
في ترب بساتين أشجار نخيل التمر في جنوب شرق إسبانيا
18 SIII-7 المواصفات الجزيئية والقابلية اإلمراضية لعزالت الفطرCylindrocarpon
destructans شمال العراق –عزلت من نباتات عنب في دهوك
22 SIII-8 السالالت الفسيولوجية للفطر المسبب للذبول الفيوزارمي في الطماطة على أصناف
العراق –مختلفة في منطقة البصرة
24 SIII-9 التشخيص والقابلية المرضية للفطرBotryosphaeria parva المرتبط بتدهور
شمال العراق –كروم العنب في منطقة كردستان
28 SIII-10 دراسة حول الفطرsp. Olpidium العراق -في منطقة البصرة
31 SIII-11 تواجد تعفن )خياس( طلع النخيل المتسبب عن الفطرMauginiella scaettae
36 SIII-12 تسليط الضوء على بعض أمراض اشجار نخيل التمر(English)
52 SIII-13 دراسات إحيائية إضافية على الفطر المسبب لتعفن او خياس طلع النخيل
Mauginiella scaettae (English)
56 SIII-14 تدهور العنب في وسط العراق بالفطريات المرتبطة
59 SIII-15 فطريات 9)دراسات عن الفطريات التي تسبب امراض وتحلل االشجار في العراق
بازيدية(
74 SIII-16 فطريات بازيدية( 7)دراسات عن فطريات تعفن اشجار الغابات
References
3
.SIII-1القابلية اإلمراضية للفطر Phaeoacremoacremonium aleophilum على
صنفين من العنب في منطقة كردستان العراق
Pathogenicity of Phaeoacremoacremonium aleophilum associated
with Grapevine decline in Kurdestan Region -Iraq
Raed A. Haleem, Samir K. Abdullah and Jaladat M. S. Jubraell
عنب مجذر أقالم على أغصان Phaeoacremoacremonium aleophilumأعراض تقرح الفطر
أعراض A-Cبعمر سنة بعد عدة أشهر من تلويث الجروح أو حقن معلق أبواغ الفطر وتمثل الصور
أغصان نباتات أعراض التقرح على D-Eالتقرح لتجارب التلويث اإلصطناعي داخل البيت الزجاجي ،
سنة تحت الظروف الحقلية . 15عنب بعمر
E
4
خالصةال
العنب اشجار من صنفين سيقان على Phaeoacremonium aleophilum الفطرإمراضية أختبرت
او للفطر سبوري بعالق الساق حقن هما بطريقتين العدوى تمت .الزجاجي البيت ظروف تحت وراشمي تايفي
السيقان على واضح تقرح ظهر .الفطري الغزل من بقرص الجرح مكان تلقيح ثم ومن الساق في جرح بعمل
للساق طولي مقطع عمل عند .تايفي الصنف على (ملم 20.65 تقرح اطول وكان اشهر اربعة بعد المعاملة
بطريقة العدوى اظهرت .التقرح منطقة في( الساق طول على اللون سوداء الى بنية خطوط تكون لوحظ
الطري اختزال الوزن الى الممرض للفطر العدوى ادت .الحقن بطريقة العدوى من كفاءة اكثر الجروح
الغزل من بقرص النبات عدوى تم الحقل في اما .السيطرة بمجموعة مقارنة معنوية بصورة للساق والجاف
اطول سجل .كهربائي ثاقب باستخدام الساق داخل ثقب عمل خالل من او بالساق جرح عمل بعد الفطري
الصنف وعلى االولى الطريقة استخام عند العدوى منى اشهر خمسة بعد على النبات (ملم 17.5 ) تقرح
مرة الول Phaeoacremonium aleophilum الفطر سجل .تايفي الصنف عن معنوي وباختالف راشمي
العراق في
Abstract
The disease severity of Phaeoacremonium aleophilum on the symptomatic
leaves of Taefi (cv.) ranged between 0.27-0.32 after two and four months of
inoculation with significant difference from Rashmew (cv.) Pathogenicity test was
performed on two cultivars, Taefi and Rashmew, under the greenhouse conditions.
One year-old rooted grape cuttings were inoculated with P. aleophilum by two
methods, injecting the spore suspension into the green shoots, and artificial
inoculation of wounded shoots with mycelial mat. Symptoms appeared as
brownish to black discoloration in a longitudinal section of all plant shoots. The
highest canker length (20.67 mm) was produced after four months of wounding on
Taefi shoots with significant difference from control treatment. Inoculation by
wounding shoots was more effective than injecting shoots. P. aleophilum caused
significant reduction in fresh and dry weight of green shoots compared with non-
inoculated treatment. Under field condition, two methods of inoculation were
adopted, wounding the green shoots, and drilling a hole into the grapevine arms
followed by inoculation with mycelia mat. The highest canker length (17.50 mm)
was obtained after 5 months on wounded shoots of Rashmew (cv.) with a
significant difference from Taefi (cv.).This pathogen has been reported for the
first time in Iraq.
Refernce:
Haleem. R.A., Abdullah, S.k. and Jubrael, J.M.S.(2013) . Pathogenicity of
Phaeoacremonium aleophilum associated with grapevine decline in Kurdistan
region-Iraq. J.Univ. Zakho Vol.1.No.2 :612-619.
5
على أغصان أقالم عنب مجذرة بعد شهرين وأربعة أشهر Phaeoacremonium aleophilumقيم شدة إصابة الفطر
Rashmewو Taefiمن التلويث اإلصطناعي )تلويث الجروح( للصنفين
.Phaeoacremoniumللفطر المسبب لتقرح األغصان Rashmewو Taefiاإلستجابة المرضية لصنفي العنب
Aleophilum خالل أطوال المناطق المتقرحة بعد التلويث اإلصطناعي من.
6
SIII-2 . التشخيص المظهري والجزيئي للفطرaleophilum Phaeoacremonium
العراق-المرتبط بظاهرة تدهور كروم العنب في محافضة دهوك
Morphological and Molecular Identification of Phaeoacremonium
aleophilum Associated with Grapevines Decline Phenomenon in
Duhok Governorate
Raed A. Haleem , Samir K. Abdullah and Jaladat M.S. Jubraeel
Abstract
Decline symptoms on grapevine included plants that failed to thrive normal
with reducing shoot growth and chlorotic interveinal areas that latter became
necrotic. In a cross section of grapevine arms, the internal wood tissue were
frequently dark brown to black with a wedge-shaped necrotic sectors.
Phaeoacremonium leophilum was isolated from infected tissues of declined plants
in pure culture and identified on the basis of its morphological and cultural
characteristics. For accurate identification of P. aleophilum the PCR technique was
employed. Ten isolates were selected from different locations. These isolates were
subjected to specific
PCR assay. The specific primers for P. aleophilum were used to amplify the ITS
region of nuclear ribosomal DNA (rDNA) containing ITS1, ITS2 and the
intervening 5.8 rRNA genes. PCR results obtained from Phaeoacremonium
isolates indicated that only three isolates were related to P. aleophilum. The
remaining isolates may represent different species of Phaeoacremonium. P.
aleophilum is reported for the first time in Iraq.
Keywords: grapevines decline, Phaeoacremnium aleophilum, molecular detection.
Reference:
Haleem. R.A., Abdullah, S.k.and Jubrael, J.M.S.(2011). Morphological and
molecular identification of Phaeoacremonium aleophilum associated with
grapevine decline in Duhok governorate, Iraq. J.Basrah Res.(Science) 37(4):
1-8.Available online at: http://www.basra-science-journal.org
7
حيث شكل المستعمرة في الوسطين Phaeoacremonium aleophilumالتراكيب الفطرية للفطر
Malt Extract Agar يسار(A و )Potato Dextrose Agar يمين(A ثم الغزل الفطري )
(Phialids) واألبواغ الكونيدية التي تخرج من الفياليد
عتماد كليا على المظاهر الخارجية التي يستخدمها الكثيرين من العاملين اإلأثبتت الدراسة الحالية عدم
بحقل أمراض النبات عندما يتطلب األمر الفصل بين عزالت تنتمي ألنواع جنس معين .. فقد عزلت في هذه
عزالت من أعراض إصابة لكروم عنب عليها أعراض التدهور . وجد ومن خالل المظاهر 10الدراسة
Phaeoacremonium aleophilumأن العزالت العشرة متقاربة بشكل كبير مع الفطر الخارجية بالمرتبط بتدهور العنب ولكن توضيف التقنية الجزيئية أعطى نتائج مختلفة ، حيث وجد بأن ثالثة عزالت فقط
Phaeoacremoniumمطابقة للنوع المذكور ، وقد تكون العزالت السبعة الباقية ألنواع أخرى من الجنس
.
8
SIII-3 . تشخيص السالالت الفسيولوجية للفطر المسبب لمرض الذبول الفيوزارمي على
البطيخ في جنوب العراق
سمير خلف عبد هللا محمد عبد الرزاق السامر صالح مهدي البدر
مستل من اطروحة دكتوره للباحث الثاني
Physiological races of Fusarium causing wilt in Muskmelon in South
Region of Iraq
S. K. Abdullah M. A. AI-Samir S. M. AI-Bader Abstract
The occurrence of Fusarium oxysporum f. sp. melonis, the causal agent of
Fusarium wilt on muskmelon (Cucumis melo L.) in Iraq has been reported in
muskmelon fields in southern Iraq. Determination of physiological races of the
pathogen has been confirmed, using three differential cultivars (Charentias T,
Charentias Fom-l and Charentias Fom-2). Six isolates of F. oxysporum f. sp.
melonis express both races I and 1,2. Four of them from Saddamiat AI-Qurna,
Numania and Dair have been assigned to Race-l , while the other two isolates
from Safwan and Zubair sites have been identified as Race 1,2.
الخالصة
المسبب لمرض الذبول الفيوزارمي على Fusarium oxysporum f. sp. melonisسجل وجود الفطر
نباتات البطيخ في حقول المحصول في بعض المحافضات الجنوبية للعراق . حددت السالالت الفسيولوجية
ترب ملوثة إنفرايا أصص تحوي على للفطر بإستخدام ثالثة أصناف كاشفة )تفريقية( زرعت بذورها في
أظهرت أربعة عزالت كانت قد جمعت من بطيخ عليها أعراض الذبول. بعشرة عزالت جمعت من نباتات
من 2و1، بينما عزلتي سفوان والزبير تعودان للساللة 1مناطق القرنة والنعمانية والدير بأنها تعود للساللة
ونتائج 2في جدول الذي يبين كيفية تشخيص سالالت الفطر المسبب الفطر الممرض كما في الجدول التالي
. 3التشخيص في جدول
9
مصادر العزالت: ق: القرنة، ن: النعمانية ، س : سفوان ، ز : الزبير ، د. الدير وجميعها مدن في جنوب العراق.
نفذت تجربة تحديد السالالت المتواجدة في حقول البطيخ في المواقع المدروسة من خالل الخطوات التالية:
10
عزل الفطر المسبب من جذور نباتات بطيخ عليها أعراض الذبول .1
تنقية كل عزلة على حدة .2
معقم .. (Millet seeds)إكثار كل عزلة على بذور دخن .3
كغم( تربة .. تركت التربة رطبة بعد التلويث لثالثة أيام . 1تلويث ترب في أصص ) .4
زرعت خمسة بذور من األصناف التفريقية في كل أصيص.. .5
يوم .... 28أخذت النتائج بعد .6
Reference:
Abdullah, S.K., Al-Samer, M.A., Al-Bader, S.M., (2003) Physiological races
in Fusarium causing wilt in muskmelon in south region of Iraq. Iraqi J.
Agric. (Special Issue) 8:145-149.(In Arabic).
11
SIII-4 .دراسة الذبول الفيوزارمي على الطماطة في العراق
نباتات غير العائل حاملة مسبب الذبول الفيوزارمي في منطقة البصرة .II
Studies on Fusarium wilt of tomato in Iraq
II. No host plants as a pathogen carrier in Basrah Region
Samir, K. Abdullah and Ismail, A. L. S. Ismail
Abstract
The tomato wilt pathogen, Fusarium oxysporum f. sp. lycopersici in no host
plant has the capacity to colonize them to different extent without showing any
appreciable disease symptoms. Out of 18 plant species screened, 7 were found to
be colonized by the pathogen.
وجد بأن الفطر المسبب لمرض الذبول الفيوزارمي على الطماطة قادر على إستعمار أنسجة بعض
عوائل بعد زراعتها 7عائل نباتي، عزل الفطر من 18العوائل النباتية التي تعتبر غير عائل للفطر، فمن بين
في تربة ملوثة به..
12
Fusariumأسماء العوائل النباتية الغير عائل للفطر المسبب لمرض الذبول الفيوزارمي على الطماطة
oxysporum f. sp. lycopersici أستعمرت من قبل الفطر الممرض بدون أن تتكشف عليها أعراض
خالل غياب نباتات الطماطة؟؟؟؟الممرض مرضية مما يجعلها أماكن جيدة وآمنة لديمومة الفطر
النسب المئوية لألنسجة المصابة بالفطر المسبب لمرض الذبول الفيوزارمي على الطماطة عند زراعة
نباتات غير عائل في تربة ملوثة به مع وصف األعراض المرضية التي تكشفت على النباتات
Reference:
Abdullah, S.K. and Ismail, A.L.S. (1976). Studies on Fusarium wilt of tomatoes in
Iraq. : II.Non-susceptible hosts as carriers of wilt Fusarium in Basrah area. Proc.
Indian Nat. Sci. Acad. 42B,(4): 189-193.
13
.SIII-5 الزبير وسفوان مسح وعزل وتشخيص مسببات موت بادرات الطماطة في مزارع
البصرةفي
D.S.A.AL-WaiIY and S.K.Abdullah
14
Isolation and identification of pathogenic fungi causing
Damping off diseases of tomato seedlings at Safwan and
Zubair fields in Basrah D.S.A.AL-WaiIY and S.K.Abdullah
This study was conducted to survey the tomato seed-decay and seedlings damping-
off diseases in the desert fields qf Safwan and Zubait regions in Basrah
Governorate and to isolate their causal pathogens. The results of the field survey
showed that the incidence of tomato seed decay and seedling damping-off diseases
were recorded in all fields and in both regions for three dates of tomato sowing
(first l-15/8 ; second 1- l5l9 ; third 1-15/10) .The highest incidence (29.15% ) was
recorded in the second date of tomato sowing. The isolation results showed that
many pathogens caused these disease cases, among them are Pythium
aphanidermatum{Edson)Fitz. , Fusarium oxysporum schltdle. ,Fusarium solani
(Mart.) Sacc. and Rhizoctonia solani Kuhn', with high frequency and also
Alternaria solani , Alternaria alternata and Fusarium equesiti(Corda.)Sacc'
with low frequency. The highest appearance and frequency was observed for
Phytophthora aphanidermatum in the first date in both regions 'followed by
F.oxysporun , Fusarium solani and Rhizoctonia solani ,In the second date, the
highest appearance was recorded for F.solani , F.oxysporum and R.solani in both
regions , as well as Alternaria solani , Alternaria alternata and F.equesiti but by
low frequency , In the third date the highest frequency was for R.solani followed
by F.solani and F.oxysporum. The pathogenicity tests recorded that the strongest
isolations for Phytophthora aphanidermatum were Pa6 ,Pal,Pa3 andPaT where the
infection intensity were 53.7, 52.3,49.3 and 4g.g% respectively , while the
strongest isolations for F.oxysporum were Fo2 and Fo3 where the infection
intensity approached 58'8 and
54.9 % respectively , However for F.solani isolate Fs5 was the strongest and the
infection intensity was 56.30/o, while for R'solani the isolations Rs6 , Rs8 and Rs7
were the strongest and the infection intensty were 45.7 ,52.5 and 54.1 0%
respectively'.
15
اسابيع من زراعة بذورها في 3للصنف سوبرماريموند بعد جدول: قيم شد اإلصابة على بادرات الطماطة
لكل ممرض .قرب البصرة و مناطق 10تربة اصص ملوثة بالوحدات اللقاحية للممرضات المعزولة من
Phytophthora العزالت
aphandermatum
Fusarium
oxysporum Fusarium
solani Rhizoctonia
solani
1 52.3* 33.9 22.6 15.4
2 37.8 58.8* 22.0 23.4
3 49.3 54.9* 32.5 21.6
4 43.1 43.4 22.5 15.0
5 40.1 36.9 56.3* 37.5
6 53.7* 18.6 28.8 54.7*
7 49.9 38.9 32.9 52.5*
8 36.1 46.5 40.4 54.1*
9 31.6 43.1 44.9 47.1
10 48.0 40.0 22.5 43.5
LSD 3.11 5.97 5.4 2.25
أقوى
العزالت
1,6 2,3 5 6,7,8
Reference:
D.S.A.AL-WaiI Y and S.K.Abdullah. 2004. Isolation and identification of
pathogenic fungi causing damping off diseases of tomato seedlings at Safwan and
Zubair fields in Basrah. Iraqi J. of Biology, 4 (1): 88-105.
16
SIII-6 . تواجد إثنين من ممرضات نخيل التمرThielaviopsis paradoxa و
Thielaviopsis punctulata تربة أحد بساتين أشجار النخيل جنوب شرق إسبانيا
Incidence of the two Date palm pathogens, Thielaviopsis paradoxa
and Thielaviopsis punctulata in soil from Date palm plantation in
Elx, South-East Spain.
Samir K. Abdullah1; Leticia Asensio; Elena Monfort; Sonia Gomez-Vidal ;
Jesus Salinas; Luis V. Lopez Lorca, and Hans B. Jansson
Abstract
The present study reports the frequent isolation of the two date palm pathogens
Thielaviopsis paradoxa (de Seynes) Hohn and T. punctulata (Hennebert) Paulin,
Harrington & McNew from soil of date palm plantations at Elx, south-east Spain,
using dilution plate, direct soil plating or by soil treatment either with acetic acid or
phenol. The two species showed a high isolation rate. T. punctulata detected from
all samples (100% isolation rate), whereas, T. paradoxa showed 52% isolation
rate.Total fungal colony count, ranged from 1.1x105–6 x105, CFU/g dry soil. Out
of these, T. punculata comprised between 0.2–3.2% and T. paradoxa, between
0.5–4.4%. Both species were characterized by development of thick-walled
aleuroconidia either singly (T. punctulata) or in chains (T. paradoxa) in addition to
the Phialoconidia. The widespread occurrence of the two pathogens in soil may
contribute to the possibility of infection of newly transplanted offshoots of date
palms.
خالصة
في تربة أحد بساتين أشجار نخيل التمر Thielaviopsisكشفت الدراسة عن وجود نوعي الجنس الفطري
المباشر من التربة وطريقة جنوب شرق إسبانيا من خالل توضيف تقنية التخافيف و العزل ELxفي منطقة
Thielaviopsisبلغ تردد عزل النوع أو الفينول للتربة. (Acitic acis)إضافة حامض الخليك
punctulata 100% للنوع 52.17بالمقارنة مع %Thielaviopsis paradoxa 1كما في الجدول:
Reference:
Samir K. Abdullah1; Leticia Asensio; Elena Monfort; Sonia Gomez-Vidal ;
Jesus Salinas; Luis V. Lopez Lorca, and Hans B. Jansson. 2009. Incidence of the
two Date palm pathogens, Thielaviopsis paradoxa and Thielaviopsis punctulata in
soil from Date palm plantation in Elx, South-East Spain. Journal of Plant
Protection Research, 49(3): 276-279.
17
)أبواغ على شكل سالسل ( ، T. paradoxaأبواغ النوع Thielaviopsia ،2-3أبواغ نوعي الجنس
Thielaviopsis punctulataبينما تمثل الصور السفلى األبواغ المفردة التابعة للنوع
18
SIII-7 .الفطر وأمراضية الجزيئي التوصيف Cylindrocarpon destructans المعزول
العراق شمال دهوك في العنب ومكر جذور من
جبرائيل صالح محمد جالدت و عبدهللا خلف سمير، حليم عبدالجبار رائد
الخالصة
من جمعت والتي العنب كرمات نبات جذور من Cylindrocarpon الفطر من عزالت عشر عزلت
صغر النمو، قلة :شملت اعراض المصابة النباتات اظهرت .العراق شمال دهوك محافظة في مزارع خمسة
قاعدة عند خاصة االوعية في االسود الى بني بلون وتخطط ، الجذور كتلة في اختزال السيقان، حجم
على "اعتمادا Cylindrocarpon destructans للفطر تعود انها علىى العزالت جميع شخصت.الساق
بالفطر خاصة بادئات استخدمت العزالت هذه تشخيص من التأكد لغرض .والزرعية المظهرية الصفات
لتضخيم
the ITS region of nuclear ribosomal DNA (rDNA) containing ITS1, ITS2 and the
intervening 5.8 rRNA genes of Cylindrocaropon.
وذلك الزجاجي البيت ظرف تحت الفطر أمراضية أختبرت .المشخص النوع صحيح بشكل ميزت والتي
X6 10 / تركيز (للفطر سبوري معلق في دقيقة ثالثين لمدة العنب اصناف من لنوعين اتنبات بغمرجذور
اختزال عن فضال االوراق في وتنقر باصفرار تمثلت مرضية اعراضا المصابة النباتات أظهرت.)ملم1في
للنباتات والجذور السيقان من لكل الجاف الوزن اختزال في معنوي فرق تسجيل تم .الجذرية الشعيرات في
العراق في مرة الول الفطر هذا سجل .السيطرة مع مقارنة المصابة
Molecular Characterization and Pathogenicity of Cylindrocarpon
destructans isolates from grapevines in Duhok, North Iraq
RAED A. HALEEM , SAMIR K. ABDULLAH1 and JALADAT M. S. JUBRAEL2
Abstruct
Ten Cylindrocarpon isolates were detected from roots of declined grapevines (Vitis
vinifera L.) plants collected from five vineyards in Duhok governorate, North Iraq.
The symptoms of the declined host including reduce vigor with small-sized trunks
,reduction in root biomass, black discoloration and brown to black streaks in wood
mainly at the base of rootstock .Based on cultural and morphological
characteristics, all isolates were identified as Cylindrocarpon destructans. These
isolates were subjected to species-specific PCR assay. Total genomic DNA was
isolated from pure cultures of the isolates. The average DNA yields ranged
between 1.5-6.7 μg/ml with a purity 1.6-1.8. The specific primers for C.
destructans (400 bp) were used to amplify the ITS region of nuclear ribosomal
19
DNA (rDNA) containing ITS1, ITS2 and the intervening 5.8 rRNA genes of
Cylindrocarpon produced appropriate and successful results with the selected
isolates confirmed that all isolates were correctly identified as C. destructans.
Pathogenicity of C. destructans was tested under greenhouse conditions. One –
year old dormant rooted cuttings of the two grape cultivars, Reshmew and Taefi,
were inoculated by dipping their roots for 30 min in the conidial suspension (1 ×
106 conidia ml-1). Infected vines showed reduced vigour with small leaves,
interveinal chlorosis and necrosis. Other symptoms included a reduction in root
biomass and root hairs. The severity
of root mass reduction reached to 0.41 on Taefi (cv.) after five months of
inoculation with significant difference compared with control treatment. C.
destructans caused significant decrease in the fresh and dry weight of grapevine
shoots and roots. This fungus is reported for the first time in Iraq during this study.
على جذور العنب من خالل التلون الحاصل Cylindrocarpon destructansتقييم شدة إصابة الفطر
في المجموع الجذري فضال عن اإلختزال الحاصل في كتلة الجذر
Raed , A. Haleem; Samir, K. Abdullah and Jaladat M. S. Jubraael. 2014.
Molecular Characterization and Pathoginicity of Cylindrocarpon destructans
isolates from grapevines in Duhok, North Iraq. Basrah Journal of Science (B)
32(2),147-165.
20
Cylindrocarpon destructansأعراض الإلصابة على جذور العنب بعد التلويث اإلصطناعي بالفطر
والتي تبدو في األسفل أشكال المستعمرات واألبواغ الكونيدية الكبيرة والصغيرة ومن ثم األبواغ الكالميدية
البينية
21
بعد التلويث اإلصطناعي بأبواغ الفطر Rashmewو Taefiشدة اإلصابة لنباتات العنب للصنفين
Cylindrocarpon destrunctans
بعمر شهر واحد Cylindrocarpon destructansحضر لقاح الفطر من خالل غسل مستعمرة الفطر
مل من الماء المقطر المعقم للحصول على معلق األبواغ الكونيدية الذي مرر خالل طبقتين من قطعة 10بـ
1لكل بوغ 61X10للحصول على Haemocytometer قماش . حسب تركيز األبواغ الكونيدية بواسطة
كغ من تربة 20مل . استخدمت شتالت عنب بعمر سنة واحدة للصنفين زرعت في أصيص يحوي على
( وضعت داخل البيت الزجاجي . قطعت أطراف جذور الشتالت 1:3معقمة )تربة مع بتموس بنسبة خلط
ورات % هايبوكل1.5دقيقة في 2قبل التلويث ومن ثم عقمت من خالل غمر الجذور المجروحة لمدة
الصوديوم ومن ثم غسلت مرتين بالماء المقطر المعقم. تم تلويث الشتالت من خالل غمر الجذور بمعلق
حول دقيقة . زرعت الشتالت بعد التلويث تحت ظروف البيت الزجاجي . حقن 30األبواغ الكونيدية لمدة
التلويث استخرجت جذور مل من معلق ابواغ نفس الفطر وبعد خمسة أشهر من 40كل نبات بعد شهر
الشتالت وقيمت شدة اإلصابة من خالل تلون الجذور أحجامها بالمقارنة مع جذور معاملة المقارنة )بدون
الفطر(.
.
22
SIII-8
Occurrence of physiological races in Fusarium causing wilt in
tomato cultivars in Basrah, Iraq.
Isamail, A.L.S., and Abdullah, S.K.,
Abstract
Four isolates of Fusarium oxysporum f. sp. Iycopersici from Basrah, yielded
both races 1 and 2. Cultivar Walter was found resistant td both the races.
.Fusarium oxysporum f احتوت اربعة عزالت للفطر المسبب لمرض الذبول الفيوزارمي في الطماطة
sp. lycopersisi وجد بأن صنف الطماطة التفريقي . 2و 1على الساللتينWalter . اليصاب بالساللتين
جدول: اإلستجابة المرضية ألصناف الطماطة التفريقية تجاه أربع عزالت من الفطر المسبب لمرض الذبول
ق الفيوزارمي جمعت من نباتات طماطة مصابة في جنوب العرا
Fusarium oxysporumعزالت الفطر المسبب للذبول الفيوزارمي على الطماطة
f. sp. lycopersici
أصناف الطماطة
التفريقية
PZ-32 RTZ-26 PM-8 RTM-12
S S S S Bonny Best
R R R S Floradel
R R R R Walter
S: Susceptible حساس R:Resistant مقاوم
23
يوم ألصناف مختلفة بالمعلق المائي ألبواغ العزالت المحلية األربعة 14لوثت جذور بادرات طماطة بعمر
يوم كما في الجدول 10ومن ثم زرعت البادرات في ترب معقمة وحسبت النسب المئوية للذبول بعد
التالي:
Reference
Isamail, A.L.S., and Abdullah, S.K., (1976). Occurrence of physiological races in
Fusarium causing wilt in tomato cultivars in Basrah, Iraq. Indian Phytopathology,
29, 378-380.
24
SIII-9
Identification and Pathoginicity of Botryosphaeria parva
Associated with grapevine decline in Kurdistan Region –Iraq
Raed, A. Haleem ; Samir K. Abdullah and Jaladet M.S. Jubrael
Abstract
During a survey on fungi associated with decline symptoms on grapevine cultivars
growing in Kurdistan region of Iraq, several isolates of Botryosphaeria species
were encountered. All isolates were identified as Botryosphaeria parva Pennycook
and Samuels. Pathoginicity test for isolate DKI 1 was performed on two cultivars,
Taefi and Rashmew. Under greenhouse conditions, one-year grape rooted cuttings
were inoculated with the pathogen isolate by two methods, injecting the spore
suspension into the green shoots and by artificial inoculation of wounded shoots
with mycelial mat. The highest canker length (15.0 mm) was produced after four
months on the shoots of the Taife cultivar artificially inoculated with mycelial mat
of the pathogen. Under field conditions, two methods of inoculation were adopted,
wounding the green shoots and drilling a hole in the arms of mature vine, followed
by inoculation with mycelial mat. The highest canker length (11.17 mm) was
obtained after 5 months on wounded shoots of the Rashmew cultivar and with
a significant difference from the Taefi cultivar. The pathogen caused a reduction in
fresh and dry weight of green shoots and roots compared with the non-inoculated
control. This is the first report on B. parva in Iraq.
Key words: Botryosphaeria parva, grapevine, Iraq
Reference:
Haleem. R.A., Abdullah, S.k.and Jubrael, J.M.S.(2012).Identification and
pathogenicity of Botryosphaeria parva associated with grapevine decline in
Kurdistan Region .Iraq .Acta Agrobotanica 65:71-78.
25
A) Colony of Botryosphaeria parva on MEA-left, PDA-right, after 10 days of
incubation at 25oC. B) Pycnidia of
B. parva on the surface of grapevine cane bark. C-D) Conidiogenous cells hyaline,
holoblastic forming conidia at their
tips discharged from mature pycnidium. E) Conidiogenous cells and immature
conidia. F) Mature conidia. Scale bars:
26
Symptoms of Botryosphaeria parva on infected grapevine: A- Dark brown,
discoloration canker on young shoot inoculated by wounding, and B) Dark brown,
discoloration canker on young shoot inoculated by the injecting of spore
suspension, under greenhouse condition; C) Dark brown canker on young shoots
wounded artificially under field conditions; D) Black internal discoloration visible,
in cross-sectioned arms inoculated by drilling a hole; E) Black streaking in the
longitudinal section of a young shoot inoculated by wounding of a 15-year-old
Rashmew plant under field conditions.
27
Botryosphaeria تقرحة على سيقان شتالت صنفي عنب بعد تلويث الجروح بالفطرأطوال المناطق الم
parva
أطوال المناطق المتقرحة لطريقتين في التلويث )تلويث الجروح وحقن معلق أبواغ كونيدية للفطر
Botryosphaeria parva في سيقان شتالت عنب بعد شهرين وأربعة أشهر من التلويث
28
SIII-10
29
30
Reference:
Abdullah, S.K., Abbas, A.F. and Hammadi, K.J. (2003). A study on the
Olpidium sp. in Basrah region. Iraqi J. Agric. (Speceal Issue) 8(3) 36-44.(In
Arabic).
31
SIII-11
Occurrence in Elx, SE Spain of Inflorescence Rot Disease of Date
Palms Caused by Mauginiella scaettae
S. K. Abdullah1, L. Asensio, E. Monfort, S. Gomez-Vidal, J. Palma-Guerrero, J.
Salinas2, L. V. Lopez-
Llorca, H.-B. Jansson and J. Guarro
Abstract
Fungal inflorescence rot of date palms, caused by Mauginiella scaettae, was
detected at all four sites surveyed in Elx, SE Spain. There was a higher incidence
of the disease in male than in female inflorescences. The pathogen responsible
for the disease was isolated and identified as M. scaettae. Sequencing of the
internal
transcribed spacer (ITS) region of this fungus demonstrated that it is close to
Phaeosphaeria
32
Mauginiella scaettaeإختبارات القابلية المرضية للفطر
جنوب شرق إسبانيا Elxالنسب المئوية لتعفن لتعفن طلع أشجار نخيل التمر في مناطق مختلفة من
كجزء من دراسة مقارنة بين طلع األشجار المذكرة والمؤنثة
33
Mauginiellaاعراض التعفن بعد التلويث اإلصطناعي بأبواغ الفطر المسبب لتعفن)خياس طلع النخيل (
scaettae بالمقارنة مع استخدام الماء فقط
34
Mauginiella scaettae isolated from symptomatic date palm
inflorescence. (5) Growth on potato carrot agar (PCA), potato dextrose
agar (PDA) and malt extract agar (MEA). (6) Hyphae and
conidia of the fungus.
ثالث أوساط غذائية وأشكال على معزولة من نورات زهرية مستعمرات الفطر المسبب لخياس طلع النخيل
والخيوط الفطرية ةاألبواغ الكونيدي
Polymerase chain reaction: The ITS1-F (5¢-CTTGGTCATTTAGAGGAAGTAA-
3¢) and ITS4 (5¢-TCCTCCGCTTATTGATATGC-3¢) primers
(Invitrogen,Barcelona, Spain) were used for amplification of the ITS region (White
et al., 1990; Gardes and Bruns, 1993). Amplification was carried out in a volume
of 40 ll, containing 4 ll of 10X Termo buffer, 4 ll dNTP (0.2 mm final
concentration), 3.2 ll MgCl2 (2 mm), 0.1 ll of Taq DNA polymerase (0.5 U/ml)
and 2 ll of each of the primers (0.5 lm) in sterile double-distilled water to 20 ll, and
20 ll DNA template to each tube. The polymerase chain reaction (PCR) was
performed in a GenAmp 9700 thermal cycler (Perkin-Elmer, MJ Research,
35
Waltham, NJ, USA) using the following conditions: initial denaturation for 8 min
at 95_C, 35 cycles of 30 s of denaturation at 95_C, 20 s of annealing at 53_C and
60 s of extension at 72_C; this was followed by final extension for 5 min at 72_C.
The PCR products were separated on a 1.2% agarose gel, stained with ethidium
bromide and viewed with ultraviolet light. PCRamplified fragments were purified
using QIAquickPCR (Qiagen, Amersham, Piscataway, NJ, USA) columns
following the manufacturer’s instructions. DNA sequencing PCR purified products
were quantified using Hoechst fluorochrome (Sigma, Madrid, Spain) and calf
thymus DNA according to Ausubel et al.(2002) and then amplified using Big Dye
Terminator,mix (Applied Biosystems, Madrid, Spain) according to the
specifications of the manufacturer, and samples were sequenced in an ABI-PRISM
3100 sequencer (Applied Biosystems). After alignment of the ITS sequences, these
were submitted to the NCBI GenBank database
(http://www.ncbi.nlm.nih.gov/blast) and compared with existing ITS sequences.
Reference:
Abdullah, S.K., Asensio, L., Monfort,E., Gomez-Vidal,S., Palma-Guerrero,
J.,Salinas, J., Lopez-Lorca,L.V. ., Jansson.,H-B. and Guarro.J. (2005)
Occurrence of inflorescence rots disease of date palm in Elx, SE. Spain. J.
Phytopathology .153; 417-422.
36
Diseases of date palms (phoenix dactylifera L.) . SIII-12
Samir K.Abdullah, L.V.Lopez Lorca and H.B.Jansson.
Summary
Date palm (Phoenix dactylifera L.) is one of the most important fruit trees
growing in the Arabian world and some neighboring countries and represents a
good cash crop for many farmers. Palm diseases are among the major factors that
affecting the products. Fungi and Phytoplasma are known as the most causal
pathogens on date palm trees. The present study is an attempt to provide an update
informations on the previously known as well as the recently reported pathogens
on date palm trees. The causal pathogens, their associated symptoms, distribution,
known epidemiology and possible control strategies are discussed.
Keywords: date palm, palm diseases, fungi, phytoplasma.
تتضمن الدراسة مسح ألمراض أشجار نخيل التمر وكما يلي:
Diseases caused by Fusarium species 2-1. Bayoud disease
The causal pathogen is Fusarium oxysporum Schlechtendahl f.sp.albedinis
(Killian&Maire)W.L.Gordon.
The pathogen F.oxysporum f.sp.albedinis (FOa) is a soil-bone fungus .Up to date
the disease is only known from the Eastern part of North Africa.The disease was
first known in Morocco since more than a century ago(Killian&Maire,1930). The
disease then spread to neighboring Algeria(Djerbi,1982). More than twelve million
date palm trees in Morocco and three million in Algeria have been killed since the
origin of the disease. This castrotraphy imposed negative effects on the farmers in
the affected areas by creating social and economical problems due to their leaving
their lands and loosing their main source of income. Beside that , the neglected
lands were subjected to the phenomenon of desertification .Almost all the
Moroccan oases were affected by the disease , while the spread of the disease was
restricted to the western and central oases in Algeria. Unfortunately , the most
commercial cultivars in North Africa ( Medjool and Deglet Noor) are highly
susceptible to bayoud disease. This resulting in dominating the poor quality
cultivars on the expense of those of high quality(Djerbi,1982).
Biology and epidemiology of the pathogen
37
Fusarium oxysporum f.sp.albedinis developed chlamydospores in dead tissues of
different organs of the infected plant especially in the roots. Chlamydospores may
released to soil after decaying of such tissues where they remain dormant and can
survive in soil for longer than eight years (Tantaoui,1989). Under favorable
onditions , chlaymydospores germinate and penetrate the roots of the host
plant.The mycelium of the fungus enters the vascular tissue of the infected root and
then advanced to the stem. The fungus develops microconidia in the vessels and
carried upwards to reach the terminal bud. The fungus colonizes the surrounding
parenchyma cells by inter and intracellular mycelium during its upward rogression
in the xylem vessels .The tree dies when the fungus and its toxins reach the
terminal bud. The mycelium continue to develop in the dead tissues and develops
numerous chlamydospores in the sclerenchyma cells ( Louvet,1977). The fungus
has been found colonizing roots of several other crops and vegetables grown as
intercrops in palm groves. These symptomless carriers serve in the persistence and
the increase of the pathogen inoculum in date palm nursery (Djerbi et al.1983).
The spread of the pathogen from the infected areas to non-infected one can be
achieved by planting infecting offshoots or by the transport of dead palm
fragments harboring the fungus ,symptomless hosts, manures, infected soil and by
irrigation water passes through infected fields. Colonies of the pathogen on potato
dextrose agar appear salmon-pink . Phialides short swollen at the base and pointed
at the tip. Microconidia are mostly unicellular ,hyaline spherical to elongated, 3-15
X 3-5 um. Macrocoidia are falcate ,usually 3-septate, 20-35 X 3-5 um.
Chlamydospores are spherical, occurring singly or in groups of two to three,
intercalary or teminal. Sclerotia are rare in culture, dark blue to black, 1-2 mm
diameter (Bounaga, 1975).
Disease symptoms:
External symptoms: The first external symptom of the disease appears on one or
more leaves of the middle crown. The affected leaves showed a leaden hue color
and then withens from base to top. Pinnae or spines stunted on one side of the leaf ,
become white and then the disease progress from the base to the apex. After one
side has been affected ,the whitening begins on the other side , progressing this
time from the top of the leaf to the base , until the whole leaf dies. Corresponding
to the passage of mycelium in the vessels of the rachis , a brown stain appears
lengthwise on the dorsal side of the rachis and advances from the base to the tip of
the frond. Afterwards , the leaf appears arched , resembling a wet feather and
hangs down along the trunk . The whitening and dying process of the pinnae may
take a few days to several weeks. Similar symptoms then begin to appear on
adjacent leaves . The palm dies when the terminal bud is affected. Death of the
palm can take place from 6 weeks to 2 years after the appearance of the first
38
symptoms depending on the cultivar and the planting conditions . Finally offshoots
at the base of the palm tree are attacked ( Built et al.1967, Louvet et al.1970,
Djerbi,1982).
Internal symptoms: When the affected palm is uprooted , a small number of
infected roots showed reddish color. Toward the stipe base, the colored areas are
large and numerous in numbers. Higher up , the colored vascular bundles separate
from the healthy tissue. Palm fronds manifesting external symptoms exhibit a
reddish brown color when cut, showing highly colored vascular bundles . herefore,
a continuing of vascular symptoms is existing from roots of the palm to the
tips of the fronds (Zaid et al.2002).
Diagnosis and detection of the pathogen:
Preliminary diagnosis are verified by isolation and identification of the fungus
from infected plant materials , symptomless carriers and soil. Pathogenicity test
should be applied by artificially inoculation of fungal isolates to the roots of young
date palm seedlings at the two leaf stage. Confirmation of the pathogenicity is
recognized by the death of the plants after 1-2 months (Watson,1974). However,
applying inoculation test to asses pathogenicity of F. oxysporum fsp.albedinis
remains difficult mainly because of time consuming. Studies at the molecular level
showed that isolates of F. oxysporum f.sp. albedinis are genetically closely related
and assigned to a single clonal lineage (Tantaoui et al.1996). In a recent
stydy,Fernandez et al.(1998) able to develop a specific oligonucleotides to use as
primer in polymerase chain reaction (PCR) assay for rapid identification of the
pathogen. It has been well documented now that PCR has identified the presence
of many forma speciales of F. oxysporum ( Plyler et al.1999, Fernandez et al.1998,
Tantaoui et al.1997).
Control of Bayoud disease:
Since the pathogen is a soil-borne fungus, control of the disease by using chemical
materials is uneconomic, except for a limited site of infection in a disease-free
areae. Soil fumigation by methyl bromide has been used as a control measure in
Algeria (Frederix &Den Brader,1989). The practical way for controlling the
disease is by selecting resistant high quality cultivars. In Morroco, this was
achieved by the results obtained in field and laboratory (Djerbi et al.1986).A
collaboration between Moroccan and French scientists led to the development of a
rapid and efficient selection of bayoud resistant individuals from the large number
of date palm trees obtained by natural crosses which display good date quality. The
diagnostic tool based on the presence or absence of two plasmids-like DNA ( the S
and R plasmid) in mitochondria as a reliable molecular marker of resistance or
susceptibility to bayoud disease caused by the fungus F.oxysporum f.sp.albedinis
(Quenzer et al.2001). By using in vitro propagation it would be possible to
39
select hundreds of bayoud-resistant genotypes to rehabilate the Moroccan and
Algerian palm groves that have been destroyed by bayoud (Zaid et al.2002). Other
attempts used as a control measure of the pathogen of bayoud disease were
including inducing resistance and using biocontrol agents. Inducing of host
resistant in the date palm in response to FOa expressed different mechanisms such
as the induction of phytoalexins biosynthesis , the accumulation of cell wall-bound
phenolic, the intensification of liqnification and the increase of accumulation of
caffeoylshikimic acid. The induction of these mechanisms is always early and
intense in the resistant cultivars , whereas, , it is late and weak in susceptible
cultivars (El Modafer & El Bustani,2002). Pretreatment of date palm seedlings
with an hypoaggressive isolate of FOa , protected them partially from further
infection with FOa , the bayoud disease pathogen. Such protection involved
biochemical interaction between the host plant and the Bayoud pathogen.Plants
treated with the hypoaggressive isolate accumulated higher amount of phenolic
mainly non-constitutive hydroxycinnamic acid derivatives along with constitutive
caffeoylshikimic acid.(El Hassne et al 2004b). These compounds thought to play a
role in date palm defense against FOa as previously showed by Daayf et al(.2003)
and EL Modafar et al.(.2000). El Hassni et al.(2004a) investigated the effect of
chitosan on the growth and morphology of FOa and its ability to elicit a defense
reaction against the pathogen in date palm roots. Chitosan at 1 mg .ml reduced the
growth of FOa on potato dextrose agar medium by an average of 75% and caused
morphological changes in the fungal mycelium , while mycelial growth was totally
inhibited in a liquid medium. In addition chitosan injected into roots at three
concentrations (0.1, 0.5 and 1mg.ml) elicited peroxidase and polyphenol oxidase
activity and particularly at the concentration 1mg.ml, increased the level of
phenolic compounds. Chitosan led to the accumulation of non-constitutive
hydroxycinnamic acid derivatives known to be of great importance role in date
palm resistance to FOa (El Hadrami et al.1996). In a recent study, El Hasseni et
al.(2007) tested twenty one isolates of microorganisms (Bacteria and Fungi) to
determine their effect on the mycelial growth and sporulation of FOa and the
potential of these antagonists in the induction of defense reactions in date palm
seedlings. Four bacterial isolates viz. Bacillus pumiius WI, Rahnella aquatica W2,
B.cereus X16 and undetermined isolate have exhibited a high inhibition toward
mycelial growth of FOa (70-77%) or its sporulation ( 80-95%) of the control.
Application of these antagonists to date palm seedlings has led to trigger defense
reactions with an accumulation of non-constitutive hydroxycinnamic acid
derivatives , known to play a crucial role in resistance of date palm to FOa. The
reaction was more clear in resistant cultivars than in susceptible. An actinomycete
strain assigned to the genus Kitasatosporia isolated from date palm rhizosphere
soil sample collected in Marrakesh showed strong antifungal activity against FOa
40
and appears of high potential interest for the biocontrol of the disease (Oubdouch
et al.1996).
2-2. Wilt diseases caused by other Fusarium species.
In recent years several reports on the isolation of Fusarium species from roots,
leaves and trunks of date palm trees showed wilt and decline. Abdalla et al.(2000)
during their investigation on the incidence of date palm disease in Saudia Arabia
and in particular in Al Qassim and Medina Al Monawara regions, several trees
showed symptoms of wilt and dieback very similar to those caused by FOa. Three
Fusarium species were isolated from the infected leaves and roots of the date palm
trees. These identified as F. proliferatum, F. solani and F. oxysporum.
Pathogenicity test on the date palm seedlings showed that F. proliferatum should
be regarded as a potentially dangerous pathogen of date palm in Saudia Arabia ,
since the species was the most frequently isolated one from palms showing disease
symptoms . Although, F. solani was highly pathogenic on seedlings of date palm,
but it was considered less important than F. proliferatum in the regions since it was
isolated rarely.In contrast , the F.oxysporum strains tested showed low virulence on
the date palm seedlings (Abdalla et al.2000). More recently, Mansoori and Kord
(2006) reported a serious disease of date palm caused by F. solani associated with
yellowing and death of the fronds. The disease occurred in date palm groves in
Kazeron district, west of Fars province in Iran. The causal pathogen was isolated
from the crown and xylem rays sampled from the trunk 1.5 m above soil level.
Pathogenicity test was performed by planting 1-year old date palm seedlings in
artificially infested soil with an isolate from the trunk of diseased palm tree as well
as seedlings planted in naturally infested soil. Similar symptoms were obtained in
both procedures, distal portions of the roots and crown were affected. The
pathogen was re-isolated from the crown and leaf bases of the inoculated seedlings.
In Iraq, a similar disease symptoms caused by F. solani have been reported
recently (Al Yaseri et al.2006). The wilt symptoms appeared with gradual
yellowing that reached the palm tipكfollowed by quick death.
2-3 Fusarium species associated with date palm decline.
Fusarium monliforme and F. solani were found associated with declined date palm
trees in Egypt (Rashed & El Hafez, 2001). Symptoms appeared on th leaves, fruit
stalks and the heart of palm tree. The symptoms on the leaves appeared as ellowish
brown streaks on rachis, then turn to brown and eventually became malformed and
dried. The symptoms on fruit stalks appeared as brown necrosis and stunting of ew
fruit stalks. On the heart of palm tree , the new leaves exhibited yellow to brown
color. Pathogenicity test proved a relation between the infection by F. moniliforme
41
and F.solani and the decline of date palm. Fusarium oxysporum and F.solani were
the most frequent and most abundant in the roots of date palm trees showing
decline in middle of Iraq.(Sarhan,2001).
3- Inflorescence Rot of Date palm
Origin and importance: Inflorescence rot disease also called Khamedj in North
Africa caused by Mauginiella scaettae Cav. was reported for the first time by
Cavara (1925) in Libya. The disease was reported subsequently in other North
African countries.
Cabrolin,1938;Muneer,1955;Calcat;1959;Michael&Sabet;1970,Taxana&L arous
,2003) and has also been reported from Arabian Peninsula (Abu Yam & Abu
Blam,1971;Djerbi;1982; Al Shridia & Al Shahwan,2003) and from Iraq
(Allison,1952;Hussain,1958,Al Ani et al.1971,Abdullah et al.2006). Recently the
disease has been reported in Elx, SE Spain (Abdullah et al.2005). The disease is
considered as the second most dangerous pathogen causing losses to date palm,
next to FOa, the bayoud pathogen. The disease is considered to be of major
economic importance in Iraq and Suadia Arabia . Severe outbreaks occurred in
Basrah, Iraq in 1948-1949 and 1977-1978, causing 80% loss of the annual harvest (
Al Hassan & Waleed). Losses up to 70% of the crop occurred in 1983 in the Katif
province, Suadia Arabia (Zaid et al.2002).
Disease symptoms:
Infected spathes first showed rot symptoms when they begin to emerge in early
spring . These symptoms were observed on the external surface of unopened
spathes as brownish or rusty-colored lesions . The side of the spathe facing the
infected flowers showed similar but milder symptoms. When the infected spathes
split, symptoms appeared mostly nearly the top of the spathe and thereafter, a
complete destruction of the flowers and strands occurred. (Fig.1:a,c). Severely
affected spathes at an early stage remain unopened and became dry (Fig1:b) (Al
Ani et al.1971;Djerbi,1983;Abdullah et al.2005).
Diagnosis and detection of the pathogen:
The major cause of inflorescence rot is considered to be the fungus Mauginiella
scaettae Cav. (Cavara,1925; Hussain,1985;Al Ani et al.1971;Djerbi,1983;Abdullah
et al.2005). However, other fungi such as F.oxysporum , F.moniliforme, F.solani,
Trichothecium roseum, Botrytis aclada, Thielaviopsis paradoxa, Acremonium
strictum and Memmoniella sp., have also been found associated with date palm
rotted inflorescences and considered of minor importance (Brown & Butler,1938;
El Behadli et al.1977; Rattan & A l Dboon,1980; Al Roubaie et al.1987; Al
Shraridia & Shahwan,2003; Taxana & Larous,2003; Abdulah et al.2005).
Mauginiella scaettae can be easily isolated from rotted inflorescence after surface
42
disinfection of small pieces with 5% sodium hypochlorite solution and plated on
suitable culture media such as malt extract agar, potato dextrose agar or potato
carrot agar. Isolation can be achieved also after incubation of disinfected pieces in
moist chambers and then picking up conidia which developed abundantly and
streak them on a suitable medium. Inoculated plates should be incubated at 25 C.
The fungus grows as white colonies with immersed and superficial mycelia.
Mycelium is composed of branched hyaline septate hyphae. Colony reverse at first
creamy to pale brown, becoming black in some isolates on potato dextrose agar.
Sporulation are abundant showing powdery appearance . Immersed Hyphae are 2-
2.5 um wide ,aerial hyphae measuring 3-4 um wide. Arthroconidia produced by
segmentation of the aerial hyphae ,unicellular, or multicellular, hyaline , glistening
white in mass, non-septate conidia, 6- 8X2.5-4um, septate conidia 6-14 X 3-4um
,2-eptate conidia 16-22 X 3.5- 4um, 3-septate condia 12-26 X 3.5-5um 4-septate
condia,24-26 X 3.5- 4.5um and 6-septate conidia up to 35 um long (Fig.1:d) (
Cavara, 1925; Abdullah et al.2005). Pathgenicity test can be performed on
detached inflorecence free of disease. Inoculation with spore suspension of the
pathogen developed typical symptoms after 4 days.
Biology and Epidemeology:
The ultrastructure of the cell wall and the hyphal septa, together with the
diazonium blue B test have shown that M. scaettae represents an Anamorph of an
unknown ascomycete ( Walt, Van der and Hopsu-Hava, 1976; Arx, Von et
al.1982). Recently Abdullah et al.(2005) showed that sequncing of the Internal
transcribed spacer (ITS) region of this fungus demonstrated that it is closely related
to Phaeosphaeria I.Miyake clade B and in particular to P. triglochinicola which
belongs to subclade B4 according to Camara et al.(2002). The majority of species
of Phaeosphaeria form pseudoparenchymatous ascomata with bitunicate asci
which mainly occurred on monocotyledonous plants ( Barr,1987; shoemaker &
Babcock,1989). Al Ani et al. (1971)demonstrated that the pathogen is mainly
reserved as mycelium in infected inflorescence remaining on palms from the
previous season or remain within the infected leaf bases. Al Roubaie et al.(1987)
suggested that the primary infection by M. scaettae probably occurred during the
early stage of floral bud formation and prior to the envelope development of the
spathes and their hardening. The availability of rain prior to the stage of flower bud
formation and during the early stage of bud formation is probably responsible for
creating favorable conditions for fungal growth ,when hyphae hidden between the
leaf bases can grow and infect newly developed inflorescence (Abdullah et
al.2005). The disease is more serious in hot and humid regions or in areas with
prolonged periods of heavy rains. Hussain and El Baldawy (1977) indicated that up
to 52% of palms might be affected in Al Fao town in Basrah province, southern
Iraq, where high humidity is prevailed , whereas; proportions of the affected trees
43
in the middle Iraq was ranging between 10-20%. Abdullah et al.(2006)
demonstrated that conidia of M.scaettae germinated best at high % r.h. Maximum
percentage of conidial germination (80.7%) occurred at 95% r.h. and declined
sharply (20.8%) at relative humidity below 95% r.h. and no germination occurred
below 80% r.h. Moreover, obvious increase in sporulation occurred according to
the increase in relative humidity. The highest is being at 100% r.h. and the lowest
occurred at 70% r.h( Abdullah et.al.2006) It is generally assumed that conidia of
M. scaettae are very short lived and do not persist through the winter. Primary
infections are thought to arise from mycelium (Al Ani et al.1971; Al Hassan &
Waleed,1979; Djerbi,1983). However, Abdullah et al.(2006) have showed in a
recent study that conidia of M. scaettae can survive as a saprophyte in infected
dead inflorescences for a period of more than twelve months and therefore, these
conidia may contribute to the new infection. Eight isolates were tested for their
ability to produce extracellular enzymes on solid media. All isolates showed
positive activity with varying degrees for cellulase, lipase, protease, phenol
oxidase, Polygalacturonase and pectate lyase. In contrast, all isolates gave a
negative test for amylase(Al Saadoon et al.2004).
Control measure:
The first step in the control of inflorescence rot disease achieved by good
management such as leaf pruning and collection and burning of all infected
inflorescences. Application of several fungicides including 3% dichlone spray or
4% thirame spray at the rate of 8 litres per individual palm ( Al Hassan et al.1977).
4- Diseases caused by Ceratocystis paradoxa and C. radicicola.
Ceratocystis paradoxa (Dade) C.Moreau ( anamorph: Thielaviopsis paradoxa (de
Seynes) Hohn.), and C.radicicola (Bliss) Moreau (anamorph: T. punctulata
(Hennebert) Paulin, Harrington et McNew, are two pathogens commonly found
either alone or in combination associated with several disease symptoms on palm
trees. These fungi can infect any part of the palm tree, and symptoms are often
expressed as black scorched leaves, trunk rot, neck bending or inflorescence
blight.( Suleman et al.2001; Djerbi,1983, Zaid et al.2001; Abbas & Abdulla,2003;
Abbas et al.1997; El Gariani et al.2007) . These disease have been observed in the
majority of date growing areas of the world ( Abdullah et al. 2009). The diseases
are more likely to occur on stressed trees especially in areas where drought and
salinity are prevailing . In vivo studies also showed that both C. paradoxa and C.
radicicola colonized palm tissues under drought stress at -2.3 MPa and had
relatively larger necrotic lesions then developed into cankers , death of buds and
eventually plant death (Suleman et al.2001). In severe cases, the pathogen attacks
the terminal bud and heart leading to the mechanical weakness of the tissues in the
44
uppermost portion of the trunk resulting in the neck bending. Sometimes the crown
rotted off ,leaving a bare trunk ( Abbas & Abdulla,2003). Some palms recover
probably by the development of a lateral bud initiated from the unaffected
meristematic tissues of the terminal bud. The palms set normal growth back by
several years and that is why it is called in Arabic Medjnoon (fool disease). (Zaid
et al.2003). The anamorphs of the two pathogens produced an abundance of
endoconidia (Phialoconidia) and Chlamydospores ( aleuroconidia) on media such
as potato dextrose agar, malt extract agar and potato carrot agar. In T. paradoxa
anamorph of C.paradoxa , the aleuroconidia borne terminally in chains from short
hyphal branches and are thick-walled ,pale brown to brownish black, smooth, oval,
measuring 10-17 X 5-10um, phialoconidia are hyaline to pale brown, cylindrical
formed endogenously in uniseriate chain measuring 7-12 X 3-5 um ( Fig.2:a,b).
In T. punctulata anamorph of C. radicicola , the aleuroconidia are borne singly on
a short hyphal branches and are thick-walled, minutely roughened , pale brown to
dark brown, oval, measuring 8-22 X 7-14 um. Phialoconidia are hyaline to pale
brown, cylindrical, formed endogenously in uniseriate chain measuring 6-12 X 3-5
um ( Fig.2:c,d). The thick-walled aleuroconidia are likely to play a role as survival
propagules of the two plant pathogens in soil.
Control measure:
The avoidance of wounds on palms grown in the field or nurseries can limit
disease incidence ( Chase & Broschat,1993). The affected fronds, leaf bases and
inflorescencs should be pruned , collected immediately and burned . The pruning
cuts and surrounding tissues should be protected by spraying with any copper-
based fungicides ( Zaid et al.2003).The use of less saline water for irrigation (
Suleman et al.(2001). In laboratory, Suleman et al.(2002) assessed the efficacy of
the biofungicide Mycostop on C. radicicola which causes black scorch on date
palm in Kuwait. Mycostop at a rate of 0.35 g /l or greater reduced spore
germination , plasmolysed germlings and reduced sporulations . Roots inoculated
with C. radicicola and then treated with Mycostop were less necrotic than those in
untreated soil.
5- Diplodia leaf-base disease:
The disease is caused by Diplodia phoenicum (Sacc.)H.Facet & L.J.Klotz. The
fungus attacks offshoots while they are still attached to the mother palm or after
their detachment and planted out. The disease was originally reported from
California by Fawcett & Klotz (1932) and then its distribution covered most of
date palm growing regions ( Djerbe, 1983; Sarhan ,2001; El Deeb et al.2007).
The pathogen may infect the outside leaves of the offshoots while younger leaves
and the buds remain unaffected but finally both of them killed. Other types of
symptoms, started with the infection of the central young leaves and terminal bud
and then gradually infect the outside leaves and finally leading to the death of the
45
whole plant. On the leaves of the older palms, symptoms appeared as yellowish
brown streaks ,15 cm to one meter in length extending along the leaf- base and
rachis . The upper part of the leaf remain unaffected and still appear green. The
symptoms appeared on the ventral surface of the leaf which facing the palm crown.
Pycnidial bodies developed on the dead leaf bases . Pycnispores are at first hyaline
,unicellular becoming dark two-celled with age, measuring 22-24 X 10-12 um.
Pycnidia can bee seen after incubation of infected pieces in moist chamber. Since
the infection of the palm takes place through the wounds made during pruning or
cutting when removing the offshoots from the mother plant, disinfection all tools
and cut surface is necessary . In addition to dipping or spraying the removed
offshoots with various fungicides such as benomyl , bordeaux mixture, or thiram (
Carpenter,1975).
6- Graphiola leaf spot:
The disease is also called false smut on date palm. The causal pathogen is
Graphiola phoenicis (Moug.)Poit. Symptoms of the disease appear as subepidermal
spots on both sides of the pinnae (leaf flat) and on the rachis with small black sori
(fruiting bodies) developing in abundance on old fronds . The sori are 1-3 mm in
diameter, more abundant in the apical regions of the pinnae . Sori superficially
resemble a scale insect but microscopic examination revealed the presence of
powdery yellow spores on whitish filaments . Spores are spherical to ellipsoidal ,
3-6 um in diameter, with smooth hyaline wall. The disease is widely spread and
occurs whenever the date palm is cultivated under humid conditions but absent in
less humid regions ( Abbas & Abdulla,2004; Djerbe,1983; Zaid et al.2002; El
Deeb et al.2007; El Gariani et al.2007; CAB international,2003). Date palm
cultivars showed variability in their response to the pathogen. For example,
Barhee, Abdal Rahman, Gizaz showed resistane, while cultivars Khistawi, Gozi,
are tolerance. In contrast cultivars Khisab, Ashrasi,Maktoom, Zahdi and Bream are
very susceptible ( Nixon,1957; Sinha et al. 1970; zaid et al.2002). Severe infection
reduces tree growth and date production through premature death of leaves . To
ovoid the incidence of the pathogen, leaf pruning and then burning of the infected
leaves should be carried out to prevent new infection. Spraying the palms after
pruning with appropriate fungicides such as bordeaux mixture, mancozeb, cupric
hydroxide and maneb ( Zaid et al.2002).
7- Belaat disease:
The causal pathogen is phytophthora sp.. The disease is of minor importance and
sporadic. It is known from North African countries (Calcat,1959; Toatain,1967).
Symptoms appear at the crown of the palm.Young fronds whiten and die ,followed
by the infection and death of the terminal bud and then progression of the infection
downwards in the trunk as a conical wet heart rot form, releasing an odour of
acetic and butyric fermentation ( Zaid et al.2002).To ovoid attacks by this fungus ,
46
efficient management of date palm plantation is recommended . To control the
disease at its early stage ,;spraying with maneb or bordeaux mixture at the rate of 8
liters /palm is recommended. Offshoots of the infected palms usually remain free
of the disease( Djerbi,1983).
8- Omphalia root rot:
The disease is caused by two species of Omphalia ( O. tralucida Bliss and O.
pigmentata Bliss). The disease is of minor economic importance to date palm and
it is known from USA (California) and in Muritania ( Fawcett & Klotz,1932;
Bliss,1944). The disease is characterized by the premature death of fronds followed
by the retardation and cessation of the plant growth , and then necrosis and
destruction of the roots . Sachs(1967) recommended the use of brestan or dexon
fungicides at the rate of one spray every two weeks for eight weeks as a chemical
control.
9- Leaf spot diseases:
In general , leaf spot diseases are of minor economic importance .Different fungal
species have been isolated from palm leaves showing leaf spot symptoms. Leaf
spot diseases are very common on date palm trees in all date palm growing
countries ( Carpenter & Elmer,1978; Fayad & Mania,2006; El Deeb et al.2007;
Livingston et al. 2002). Generally infection is more severe on the lower whorls and
old leaves than in upper young leaves, and the infection rate and severity is
increased with increasing palm age. Negative correlation between tannin and wax
content in the leaves and severity of infection were recorded ( Fayad &
Mania,2006). Among these diseases , brown leaf spot caused by Mycosphaerella
tassiane ( anamorph: Cladosporium herbarum) is the most common. Symptoms of
the disease occur on the rachis ,pinnae and spines as dark lesions with well-defined
margin on green leaves and on drying leaves, the margin of the lesion remains
reddish brown as the centre becomes pale. Other fungi caused leaf spot symptoms
on palm trees include Alternaria alternate, Bipolaris australiensis, Drechslera sp.,
Helmnthosporium sp., Colletotrichum sp., Stemphylium sp., Pestalotiopsis
palmarum , Chaetosphaeria sp., Phomopsis sp., Phoma spp., ( Livengston et al.
2002; Fayad and Mania,2006; El Deeb et al.2007, Carpenter & Elmer,1978; El
Gariani et al 2007). Control measures include annual pruning of old infected leaves
and their immediate burning is recommended ( Zaid et al.2002). At early stage of
the disease, spraying with mancozeb , mancozeb + copper are effectively control
the disease ( Livingston et al.2002).
10- Disease caused by Phytoplasma.
10.1- Al Wijam
In Arabic Al Wijam means poor fruitful . The disease was observed for the first
time by Nixon (1954) in Al Hassa oasis eastern of Saudia Arabia .The main
47
symptoms of the disease are leaf stunting with yellow streaking and a marked
reduction in fruit and stalk size. Leaves become choritic and their life span is
reduced. Stunting and yellowing increases with age leading to the death of the
leaves. Diseased spathes are shorter than healthy one and split open before their
complete emergence. Fruits and fruit stalks showed reduction by 36-40% in the
size. Al Hudaib et al.(2007) reported on the identification and molecular
characterization of phytoplasma associated with Al Wijam in Al Hassa ( Saudia
Arabia). The phytoplasma; identified from 28/40 date palm showing typical Al
Wijam symptoms clearly placed in the 16SrI group "Ca.P.asteris" which is
supported by the sequencing and phylogenetic data. Moreover, phylogenetic
analysis showed that the phytoplasma identified in the leafhopper Cicadulina
bipunctata Melichar was 100% identical to that detected from date palm showing
Al Wijam symptoms and accordingly it has been identified as a putative vector of
the disease (Alhudaib et al.2007).
10-2- Leathal yellowing.
The importance of the disease was first known from USA (Florida) on coconut
palms destroying about 1/2 million coconut palms ( McCoy,1976). The disease has
wide range of hosts including Phoenix dactylifera L., P.canariensis Hort., and P.
reclinata Jacq ( Thomas,1974). Symptoms on coconut are characterized by early
dropping of developing fruits , followed by formation of new inflorescence which
rapidly becomes necrotic, a rapid and generalized yellowing and eventually the
death of the palm. In Kuwait, Al Awadhi et al.(2002) reported their finding on a
phytoplasma associated with yellowing disease of date palms. The disease
displayed similar symptoms of Al Wijam as expressed on leaves, spathes and
bunches of date palm. In Egypt, Ammar et al. (2005) detected phytoplasma
associated with diseased date palm refereed to it as streaking and yellowing
disease. Harrison et al.(2002) detected phytoplasma belonging to the 16SrIV
group, subgroup D, causing lethal yellowing decline in Canary Island date palm in
Texas.
10-3. White tip die-back.
This is newly recognized disease on young date palms (Phoenix dactylifera L.).
The disease occurs in isolated foci in northern Sudan ( Cronje et al.2000a).
Symptoms appeared on 5-8 years old palm trees which die within 6-12 months of
symptoms appearance . Severe chlorosis of the emerging leaf and at the tip of the
pinnae of older fronds which change quickly from green to dry white without
showing yellowing of the crown..Using molecular techniques, the causal pathogen
has been assigned to Phytoplasma ( Cronje et al.2000a).
48
10-4. Slow decline:
The disease is attacking mature date palms along the Nile between Dongola and
Mero-karem , North Sudan. Palm death occurs between 1-2 years after appearance
of symptoms and causing losses estimated at 6%. The symptoms appeared at first
as yellowing of the outermost fronds and progressing towards the young central
fronds and newly emerging leaves. Eventually, all fronds dry white to light brown
and are then shed leaving few young leaves at the top of the trunk which may
break off leaving the trunk alone( Cronje et.al.200b). The sequence of slow decline
Phytoplasma 16S/235rDNA intergenic spacer showed a very high (99%) homology
with comparable sequencies of Phytoplasma associated with White tip-dieback
disease on young date palm ( Cronje et al.2000b).
11- Brittle leaf disease.
In French the disease is called "Malade des feuilles cassantes". The disease was
first known from southern (desert) parts of Tunisia . According to Mehani (1958)
palms with symptoms of the disease were found since 1960s in Nefta and Tozeur
oases. However, only after twenty years the disease begins to draw attention due to
the rapid increase of the effected trees particularly in the Nefta oasis ( Tukrouni et
al.1988). In Algeria, the presence of the disease was confirmed in 2006 ( Al saadi
et al.2006). The causal pathogen is not yet determined exactly. The symptoms are
assocated with manganese deficiency and the presence of a small double strand
RNA. However, the effected trees in the field seem to cluster into foci , suggesting
a biotic origin. A possible soil microorganism is responsible for rendering soil
manganese insoluble and unavailable to the palm trees ( Triki et al.2003). The
early symptoms of the disease appeared on the fronds showing chlorosis . Leaflets
become brittle, twisted, frizzled and shrivled with a scorched appearance . In
severe cases, only frond midribs without leaflets remain. Affected trees have
shorter fronds, stop growing and eventually die. Four to six years may elapse
between the appearance of the first symptoms and the death of the tree (Tiriki et
al.2003).
12- Date Bunch Fading Disorder (DBF).
The date palm bunch fading disease was first reported in 1997 in the south of
Kerman province (Iran). In the last 5 to 6 years, the DBF has been the most
harmful phenomenon on date yields in date palm plantations of southern Iran. The
mean amount of damage at different regions and in different years has been
estimated between 30-50% of the crop (Karampur,20002).Symptoms of this
disorder occur at first as light yellow lesions on peduncles and gradually
developing to longitudinal pale brown strips on the whole peduncle. Date fruits
wilt usually from the bottom of the strand up and then the pedicel, peduncle and
whole bunch wilt dry.(Karampour,1999).Many fungal species have been isolated
49
from affected date palm trees showing DBF disorder. These include Alternaria sp.,
Aspergillus flavus, A. niger, Penicillium sp., Fusarium sp., Trichoderma sp., and
Thielaviopsis paradoxa. Among the isolated fungi, T. paradoxa had the ability to
increase incidence of DBF disorder on date tree "Mordaseng" under drought and
hot winds stresses in natural climatic conditions of date palm plantations in
Hormozgan province exclusively . Karampour and Pejman (2007) concluded that
the associated fungal agents had no direct and or primary role in occurrence of
BDF disorder
Mauginiella scaettae a,rotted female inflorescence, b:unopened male
spathe due to severe infection c: opened infected male spathe. d:
arthroconidia in chains.
50
Mauginiella scaettae c: opened infected male spathe. d:arthroconidia in
chains.
Ceratocysts paradoxa ( Anamorph: Thielaviopsis paradoxa)
a,b:Aleuroconidia(chlamydospores) and Phialoconidia (endoconidia)
51
Ceratocystis radicicola ( Anamorph: Thielaviopsis punctulata) c,d.
Aleuroconidia and Phialoconidia. Scale bar =20um
Reference :
Abdullah,S.K.,Lopez-Lorca,L.V.and Jansson.H.B. (2010). Diseases of date palm
(Phoenix dactylifera L.). Basrah J. Date Palm Researches.9(2) 1-43.
52
SIII-13
Further biological study on Mauginiella scaettae , the pathogen of
inflorescence rot disease of Datepalm
S. K. Abdullah; A.H. Saadoon and A. H. AL-ISSA
Introduction
Inflorescence rot disease of date palms cause d by Mauginiella scaettae Cav .
was reported for the first time by Cavara (1925a,b) in Libya. The disease has also
been reported in other North African countries (Chabrolin,1928;
nier,1955;Calcat,1959; Michael and Sabet,1970) , from Arabian Peninsula
(AbuYam and Abu Blam,197l;Djerbi,l982) and from Iraq (Allison,l952;
Hussain,l985;A1-Ani et al.l97l).Recently, the disease has been reported in Elx,
South East Spain (Abdullah et a1.2005) Although studies on some biological
aspects of the fungus have been made (Al-Saadoon et a1.2004,Michael and Sabet,
1970; Al-Hassan and Waleed, 1977), informations on the saprophytic survival and
the effect of some environmental factors on spore germination of the pathogen are
meager. The results of studies on the ability of the conidial propagules of the
fungus to live as a saprophyte in dead inflorescence tissues and the effect of
different relative humidity on germination and sporulation of the fungus are
presented here.
Isolation of the pathogen:
Small pieces (3cm long) from infected female inflorescence were surface
disinfected with 5Yo sodium hypochlorite for l0 min. and then washed three times
with sterile distilled water. The surface sterilized pieces were placed in plates
containing malt extract agar (Oxoid, England) supplemented with chloramphenicol
(50ug/m1., SDA, Iraq). The plates were incubated at 25 C in the dark.
Saprophytic survival of conidia:
Seventy two pieces (3 cm long) removed from severly infected inflorescence of
female Khidrawy cultivar were surface sterilized with 5 o% sodium hypochlorite
for 10 min. and then rinsed three times with sterile distilled water. The surface
sterilized pieces were placed on top of moist sterilized paper in Peri dishes and
incubated at 25 C for 7 days to enhance sporulation and then left for other 7 days to
dry after removal of Petri dish lid. Dried pieces showing sporulation were
distributed in 9 cm Peti dishes ( 3 pieces/dish). Two sets were made (each 36
dishes). Peti dishes of one set were incubated at25 C, others were incubated at
room temperature. To test the viability of the conidia, infected pieces in each Petri
dish from both sets were removed each month for period of 12 months. The pieces
53
were put in sterilized vials (12 ml.size), each vial contains 5 ml. of sterilized water
agar solution with sucrose (2g agar,5g sucrose, 100 ml. distilled water). Vials were
agitated gently to remove conidia from the infected pieces and conidial
suspensions were obtained. A 3 drops from each conidial suspension were put on
sterilized glass slide and incubated at 25 C for 24 h and then stained with
lactophenol cotton blue. Conidial percentage germination were calculated for 3
replicates, each one with 100 conidia.
Effect of relative humidity on sporulation:
Seven small pieces (3 cm long) from infected inflorescence were surface sterilized
with 5%o sodium hypochlorite for 10 min. and then washed three times with sterile
distilled water. Pieces were blotted dry on sterilized filter paper. The small pieces
were placed on glass rodes and were incubated over different concentrations of
H2So4 to produce atmosphere
of 95,90, 85, 80, 75,70yo r.h. in 15 cm closed glass Petri dishes (Solomon, 1951).
Distilled water was used to acieve l00Yo r.h.. After seven days incubation, each
piece from each corresponding relative humidity was put into small sterilized vials
containing 2 ml. sterile distilled water. To acieve spore suspension, each vial was
gently agitated. Spore concentration was calculated by using improved double
neubaner heamocytometer. Effect of relative humidity on conidial germination:
Thin films of water agar (2Yo) were prepared and cut in small square pieces (2X2
cm} The agar was dried in oven at 60 C to ensure that there was no liquid
water at the surface. The agar pieces were put on sterilized glass slides and
incubated into 15 cm closed Petri dishes over solutions of different H2So4
concentrations as described above. The thin films left for 24 hto achieve the same
relative humidity of the chamber. The dishes were incubated at 25 C. Conidial
suspensions were prepared in sterile water from sporulating 7 days old culture.
Two drops (ca. 0.05 ml) of each spore suspension were placed on each agar film.
Dishes were agitated gently to spread the spores over the agar surface. After 24 h
incubation at 25 C., the agar thin films were stained by cotton blue in lactophenol.
Conidial percentage germination was counted in 10 field using 100 conidia /field
and the mean number was calculated.
Results and Discussion:
Conidia of Mauginiella scaettae incubated at different relative humilities varied
greatly in germination percentage. Conidia germinated best at high % r.h and
showed maximum percentage of germination (80.7%) at 95'h r.h. followed by
64.1% r.h. A sharp decline in percentage conidial germination was obtained at
relative humidity below 95%o and no germination occurred below 80% r.h. (Table
l). There is obvious increase in sporulation according to the increase in the relative
humidity. The highest is being at l00o/o r.h. and the lowest occurred at 70%o r.h.
(Table I ). It has been well documented that inflorescence rot disease of date palm
54
caused by Mauginiella scaettae is particularly serious in areas characterized by
higher humidity or with prolonged periods of heavy rain in winter and spring (Zud
et a1.2002; Abdullah et a1.2005). Hussain and El-Baldawy (1977) indicated that
up to 52Yo of palms might be affected in Al- Fao town of Basrah province,
Southern Iraq, where high humidity is prevailed, whereas, the proportions of the
affected trees in the middle Iraq was ranging between 10-20%. It is generally
assumed that conidia of Mauginiella scaettae are very short lived and do not
persist through the winter. Primary infections are thought to arise from mycelia (
Al-Ani et al.l971; Al-Hassan and waleed,l971; Djerbi,1983). However, the present
study revealed that conidia of Mauginiella scaettae can survive as a saprophyte in
infected dead inflorescence for a period of more than 12 months (Fig.l) and hence
these conidia may contribute to the new infection
55
Reference:
Abdullah, S.K., Al-Saadoon, A.H. and Al-Issa, A.H. (2006) Further biological
study on Mauginiella scaettae, the pathogen of inflorescence rot disease of date
palm. Proc.12th Medit.Phytopath.Union. 200-202.
56
SIII-14
Fungi associated with grapevine (Vitis vinifera L) decline in middle
of Iraq
Samir K. Abdullah, Marwan Q. Al-Samarraie, Akeel H. Al-Assie
Abstract
Fungal species associated with three (Vitis vinifera L.)cultivars exhibited decline
grown in the main grapevine production area in Salahaldin province, middle Iraq
were surveyed during 2012 – 2013. Based on microscopically and cultural
characteristics, a total of 24 species in addition to non-sporulating mycelia were
identified. The most frequently isolated fungi from shoots were: Aspergillus niger,
Cladosporium cladosporoides, Cadophora spp., Clonostachys rosea, Penicillium
spp. Phaeoacremonium sp. I, Neocytalidium dimidiatum and Stachybotrys atra,
whereas, Fusarium spp., Acremonium sp., Cylindrocladiella viticola,
Cylindrocarpon spp., and Phaeoacremonium sp. 2, were the most frequently
isolated fungi from roots. Cylindrocladiella viticola is recorded for the first time
from Iraq(Table1)
تبد عليها أعراض التدهورمقاطع عرضية في سيقان واغصان نباتات العنب التي
57
(Vitis vinifera)ن وجذور العائل النباتي العنباالنسب المئوية للفطريات المعزولة من سيق
تداخل الفطريات المعزولة من أصناف العنب ومواقع تواجد األصناف في محافضة صالح الدين وسط
العراق
58
Cylindrocladiella viticola, Penicillate conidiophore, stipe with vesicle and
conidia.
Reference
Abdullah,S.K., Al-Sammarai,M.Q.and,Al-issa,A.H.(2015). Fungi associated with
grapevine(Vitis vinifera L .) decline in middle of Iraq. Egypt Acad.J.Biol.Sci.
(Microbiology).7(1):53-59.
59
SIII-15
Studies on fungi causing diseases and decays of trees in Iraq
S.S. Rattan, Samir K. Abdullah and A.L.S. Ismail
Abstract
Nine species of wood-rot Aphyllophorales associated with diseases and decays
of conifers and other hardwoods in northern Iraq are described and illustrated. Out
of these, Phlebia roumegueri; Amphinema byssoides;Phellinus pini ; Coriolus
versicolor, Phanerochaete gigantea, Hirschiosporus abietinus. Gloeoporus qdustus
and Stereum rugosum are new records while Gloeocystidiellum zawitense is
described as new. The new combination, Phanerochaete gigantea is also
proposed.
1. Phlebia roumegueri, a, basidiospores; b, basidium; c, incrusted cystidium
(Lamprocystidium); d, basidiole; e, simple-septate Hyphae.
Collections examined: on bark of Pinus halepensis vat. brutia, Saara Tuka,
Dohuk, Iraq, Jan. 28, 1976, leg. Rattan & Abdullah 223 ; on log of Pinus
halepensis var. brutia, Zawita, Dohuk, Iraq, Jan. 31, 1976, Rattan & Abdullah
60
(UBM'IH), Rattan & Abdullah .This species is very common on coniferous
stumps and logs and is associated with white-rot. Thind (1973) has suggested its
potentialities as biological control for Fomes annosus (a severe heart-rot pathogen
of conifirs). The occurrence of this species in north Iraq along with the butt-rot
pathogen (Fomes pini) in interesting but its role in disease epidemiology is yet
to be investigated.
الموسوعة العربية ألمراض النبات الفطريات
و Mycobankفي المصنفين Phlebia roumegueri (Bres.) Donk, 1957تم تغيير إسم الفطر
Species of Index Fungorum (SIF) ليكونPhlebiopsis ravenelii (Cooke) Hjortstam
، أحد أجناس العائلة Phlebiopsis Jülich 1978الذي ينتمي للجنس البازيدي 1987
Phanerochaetaceae ضمن الرتبة البازيدية ،Polyporales والصف ،Agaricomycetes أحد
صفوف القبيلة البازيدية في مملكة الفطريات .
Phlebiopsis ravenelii
61
2. Phellinus pini, a, basidiospores; b, basidium; c, setae; d, basidiole; e, skeletal
hyphae; f, generative hyphae.
Collections examined: on living trees of Pinus halepensis var. brutia' Suara
Tuka, Dohuk, Iraq, Jan. 31, 1976, leg. Rattan & Abdullah 228(UBMH), Rattan
& Abdullah 229 (UBMH). This species is associated with heart-rot in conif'ers
Several infected trees were observed in Suara Tuka area.
الموسوعة العربية ألمراض النبات الفطريات
Mycobankفي المصنفين Phellinus pini (Thore ex Pers.) Lloyd, 1915تم تغيير إسم الفطر
الذي ينتمي Porodaedalea pini (Brot.) Murrill 1905ليكون : Species of Index Fungorumو
، Hymenochaetaceae، ضمن العائلة البازيدية Porodaedalea Murrill, 1905للجنس البازيدي
، أحد صفوف القبيلة البازيدية في Agaricomycetes، في الصف البازيدي Hymenochaetalesوالرتبة
مملكة الفطريات.
62
Porodaedalea pini
3. Coiolus versicolor, a, basidiospores; b, basidium; c, basidiole
Collections examined: on stump of Pinus halepensis var. brutia, Suara Tuka,
Dohuk, Iraq, Jan' 31, 1976, leg. Rattan & Abdullah on stump under frondose trees,
Mosul, Iraq, April l, 1976,
الموسوعة العربية ألمراض النبات الفطريات
Trametes versicolor (L.) Lloyd 1921ليصبح Coiolus versicolorتم تغيير إسم الفطر
، التابع للجنس البازيدي Species of Index Fungorum (SIF)و Mycobankإستنادا إلى المصنفين
Trametes Fr. 1836 ضمن العائلة البازيدية ،Polyporaceae والرتبةPolyporales إحدى رتب ،
، في القبيلة البازيدية لمملكة الفطريات . ومن الجدير بالذكر يضم Agaricomycetesالصف البازيدي
نوع. 820مايقارب Trametesالجنس
63
Trametes versicolor
4. Amphinema byssoides: a, basidiospores; b. basidium; c, thin-walled
cystidium (septocystidium);d, basidiole.
64
Collections examined: on slash of Pinus halepensis vat. brutia, Zawtta, Dohuk,
Iraq, Jan. 31,lg76,1eg. Rattan & Abdullah 226 (UBMH)' This species is associated
with white-rot and is a primary colonizer of coniferous slash. It is easily ecognized
by the yellow, pelliculose Fructifications, presence of septate Cystidia and small,
yellow, cyanophilous basidiospores.
النبات الفطرياتالموسوعة العربية ألمراض
للجنس البازيدي Amphinema byssoides (Pers.) J. Erikss. 1958ينتمي الفطر البازيدي
Amphinema P. Karst. 1892 ضمن العائلة البازيدية ،Atheliaceae والرتبة ،Atheliales أحد ،
التابع للقبيلة البازيدية في مملكة Agaricomycetesوالصف Agaricomycetesرتب الصف البازيدي
. Amphinemaالفطريات. توجد خمسة انواع أخرى ضمن الجنس
Amphinema byssoides
66
5. Gloeocystidiellum zawitense, sp. nov. a basidiospores; b,basidium; c,
gloeocystidia with irregular crystals in the apical part; d, basidiole; e,simple-
septate Hyphae.
الموسوعة العربية ألمراض النبات الفطريات
Gloeocystidiellum zawitense S.S.Rattan, Abdullah & Ismail جديد البازيدي الفطر العزل
من غابة صنوبر حلبي في منطقة زاويتة شمال العراق تميز عن بقية انوع الجنس البازيدي ، 1978
Gloeocystidiellum باشكال وأحجام األبواغ البازيدية وبغياب اإلتصال الكالبي في الخيوط الفطرية للنوع
جذوع بأنه سطحي كالطالء على Gloeocystidiellum zawitenseالجديد . إتصف الفطر البازيدي
. Pinus halepensis var brutiaوأغصان أشجار الصنوبر للنوع
Gloeocystidiellum zawitense S.S.Rattan, Abdullah & Ismailينتمي الفطر البازيدي العراقي
، Stereaceae ضمن العائلة البازيدية، Gloeocystidiellum Donk, 1931للجنس البازيدي 1978
، ضمن القبيلة البازيدية في مملكة Agaricomycetes، أحد رتب الصف البازيدي Russulalesوالرتبة
. 83. ينضوي تحت الجنس البازيدي مايقارب (Basidiomycota / Fungi)الفطريات
67
على جذوع متحللة ألحد األشجار sp. Gloeocystidiellum الفطر البازيدي
68
6. Stereum rugosum' a' basidiospores;-b' basidium: c' conducting hypha; d'
basidiole;
e. simple-septate Hyphae
الموسوعة العربية ألمراض النبات الفطريات
الذي عزل من جذوع أحد أشجار الصنوبر Stereum rugosum Pers. 1794ينتمي الفطر البازيدي
Stereaceae، ضمن العائلة Stereumالحلبي في زاويتة/ دهوك شمال العراق ، للجنس البازيدي
ضمن القبيلة البازيدية في مملكة Agaricomycetes، إحدى رتب الصف البازيدي Russulalesوالرتبة
. Stereumنوع ضمن الجنس 700أكثر من Index Fungorumالفطريات . ذكر المصنف
Stereum rugosum
69
7. Phanerochaete gigantea a: basidiospores , b:basidium, c: cystidium
(Lamprocystidium), d: basidiole, e: simple septet hyphae
الموسوعة العربية ألمراض النبات الفطريات
& Phanerochaete gigantea (Fr.) S.S. Rattan, Abdullahوجد الفطر البازيدي الجديد
Ismail, 1977 مغطيا أجزاء من بقايا جذع أحد أشجار الصنوبرPinus halepensis var brutia في
منطقة زاويتة قرب محافضة دهوك في شمال العراق . أتصف جسم الفطر بأنه يشبه الطالء السميك على
500، ولونه كريمي أو أصفر يميل للكريمي، بسمك قد يصل إلى (Resupinate)سطح بقايا جذع الشجرة
وتراوحت ابعاد Gloeocystidia. عند إختبار الحشوة الخاصة بالفطر لم تالحظ الـ (µm)ميكروميتر
ميكروميتر، أما البازيديا التي تتواجد عليها األبواغ البازيدية فتراوحت X 12-18 100 -60السيستيديا
ميكروميتر. X 5-6 35 -30أبعادها
70
Phlebiopsis gigantea
Phanerochaete P. Karst. 1889للجنس البازيدي Phanerochaete giganteaينتمي الفطر
، أي إن الفطر يكون تراكيبه Polyporales، ضمن الرتبة Phanerochaetaceaeللعائلة البازيدية التابع
على الرغم من أن الرتبة ، (Pores not Gills)الجنسية )بازيديا وأبواغ بازيدية( في ثقوب وليس غالصم
(Fungi/لفطريات، أحد صفوف القبيلة البازيدية في مملكة اAgaricomycetesتنتمي للصف البازيدي
Basidiomycota ( كما أقرت ذلك المصنفIndex Fungorum ذكر في المصنفين .Mycobank و
Species of Index Fungorum (SIF) للفطر قد أصبح من أن اإلسم الحاليPhlebiopsis gigantea
(Fr.) Jülich,1978.
71
8. Hirschioporus abietinus, a: basidiospores , b: basidium , c' thin-walled
Cystidia with irregular crystals in the apical part (Septocystidium), d'-basidiole; e'
clamped subhymenial hyphae.
Collections examined: on fallen branches of Pinus halepensis vat. brutia, Suara
Tuka, Dohuk, Iraq, Jan. 31, 1976, leg. Rattan & Abdullah 234 (UBMH). This
species usually occurs on rotting coniferous wood and is associated with white
spongy-rot.
الموسوعة العربية ألمراض النبات الفطريات
Trichaptum ليصبح Hirschioporus abietinusتم تغيير إسم الفطر البازيدي
abietinum (Dicks.) Ryvarden 1972 إستنادا إلى المصنفينMycobank وSpecies of Index
Fungorum(SIF) والذي يتبع الجنس البازيديTrichaptum Murrill, 1904 ضمن العائلة ،
Polyporaceae والرتبة ،Polyporales والصف البازيدي ،Agaricomycetes أحد صفوف القبيلة ،
نوع مع 60. ذكر وجود Index Fungorumاألول و إستنادا إلى المصنف البازيدية في مملكة الفطريات
72
قد وضح جنس الفطر SIFومن الجدير بالذكر بأن المصنف . Trichaptumالنوع الحالي ضمن الجنس
. (Incertae sedis)بسبب عدم وجود عائلة مؤكدة Hymenochaetalesضمن الرتبة
Trichaptum abietinum
73
9.Gloeosporus adustus ' basidiospores; b' basidium; c' basidiole; d': Hyphae
with clamp connection,
ناميا على بقايا أشجار مقطوعة في أحد المناطق الواقعة Gloeosporus adustus البازيدي وجد الفطر
. عرف عن الفطر بأنه مسبب التعفن 1976في الموصل شمال العراق خالل هذه الدراسة المسحية عام
لمجموعة أشجار المخروطيات وعادة ما تتكشف األجسام الثمرية (White fibrous Rot)الليفي األبيض
. على بقايا األشجار المقطوعة
الموسوعة العربية ألمراض النبات الفطريات
.Bjerkandera adusta (Willd.) P ليصبح Gloeosporus adustusتم تغيير إسم الفطر البازيدي
Karst. 1879 التابع للجنس البازيدي Bjerkandera P. Karst. 1879 ضمن العائلة البازيدية ،
Meruliaceae والرتبة ،Polyporales والصفAgaricomycetes في البازيدية ، أحد صفوف القبيلة
Indexنوع مع النوع الحالي أقرها المصنف Bjerkandera 64مملكة الفطريات . يضم الجنس
Fungorum .
74
Gloeosporus adustus
Bjerkandera adusta اإلسم البديل
Reference:
Rattan, S.S. and Abdullah, S.K. (1978). Studies on the fungi causing diseases and
decays of trees in Iraq. Nova Hedwigia 29, 765-779.
75
SIII-16
Sudies on the wood rot fungi of Iraq
S. S. Rarran and Samir K. Abdullah
Abstract
Seven species of wood-rot Aphyllophorales collected from the pine forest in
Northern Iraq are described and illustrated. Out of these, Gloeocystidiellum
luridum; Radulomyces subriolaris; Athelia acrospora; Amphinema
lomentellhstrum; Stereum sanguinolentum and Asterostroma medium are new
records for Iraq while Galzinia cystidiata is proposed as new species
Collection Sites & Trees :
Pinus halepensis var. brutia , Juniperus axycedrus , Quercus aegilops L. or Q.
infectoria and Olive. The study was, therefore, undertaken to investigate the
wood-rot fungi from this coniferous complex. Collections were made during
January-February, 1976, and a study of some Resupinate forms has revealed
some interesting and noteworthy species. Seven such species are recorded in this
paper. Out of these, six are new records for Iraq while Galzinia cystidiata is
proposed as new. Abbreviations used to designate herbaria are those of Lanjouw
and Stafleu (1964) while the Herbarium, College of Science, tlniversity of Basrah,
Iraq, is abbreviated as UBMH.
Reference:
. Rattan, S.S. and Abdullah, S.K. (1976). Studies on the wood rot fungi of Iraq.
Indian Phytopathology, 29, 296-302.
76
1.Amphinema tomentellastrum الفطر البازيدي المرادف
Amphinema tamentellastrum (Bres.) Christ., 1960.
Fructifications : Resupinate, pelliculose, loosely adnate, widely effused, up to
300 µ, thick in section; hymeneal surface white to cream but turns greyish ochre
Amphinema tomentellastrum
a.Basidia&Basidioles, b. Cystiia, c: Basidiospores
لموسوعة العربية ألمراض النبات والفطريات ا
Amphinema أو Amphinema tomentellastrumينتمي الفطر
tomentellum (Bres.) M. P. Christ. 1959 للجنس البازيديAmphinema P. Karst.
، إحدى رتب الصف البازيدي Athelialesوالرتبة البازيدية Atheliaceae، ضمن العائلة 1892
Agaricomycetes أقر المصنف .Index Fungorum وجود األنواع الستة التالية ضمن الجنس:
Amphinema angustispora P. Roberts 2001 ; Amphinema arachispora Burds. &
Nakasone 1981; Amphinema byssoides (Pers.) J. Erikss. 1958; Amphinema
77
diadema K. H. Larss. & Hjortstam 1986; Amphinema sordescens (P. Karst.) P.
Karst. 1893; Amphinema tomentellum (Bres.) M. P. Christ. 1959.
Species of Index Fungorum (SIF)و Mycobankومن الجدير بالذكر بأن كل من المصنف
للفطر البازيدي (Synonym)أحد األسماء المرادفة Amphinema tomentellumعتبرا اإلسم قد إ
Amphinema byssoides (Pers.) J. Erikss., 1958 . الذي ينتمي لنفس المراتب التصنيفية
Amphinema tomentellastrum بدال من Amphinema byssoides اإلسم البديل
78
2.Asterostroma medium الفطر البازيدي
Asterostroma medium
d, Asterosetae; e, Basidium; f, Basidiospores; g, asterophysis from the
hymenium Asterastroma medium Bres., 1920.; Fructifications: Resupinate, spongy-
pelliculose, separable, up to 1 mm thick in section;hymenial surface ochraceous to
ochre-brown or camel brown, smooth, finely granulose to reticulose-porose under
the lens, minutely cracked in thicker parts; margin thinning. fibrillose to
rhizomorphic, white to paler concolorous. Rhizomorphs rather scanty, pale yellow
to ochraceous, sparsely branched. Context light brown in section composid of
loosely arranged asterosetae and hyphae. Hyphal system monomitic, hyphae 2-2.5
µ wide, subhyaline, branched, septate, clamps absent, thin-walled. Asterosetae
abundant,50-130 µ in diameter, composed of 4-7 rays radiating from rays subulate,
up to 90µ long and 3'-4.5 µ broad at the base, unbanked or forked at the tip, light
brown, thick-walled, wall up to I µ , thick, setae present in the basal or central part
of context are larger but these become progressively smaller towards the
hymenium. The setae present in the hymenial layer.
الموسوعة العربية ألمراض النبات والفطريات
Asterostromaللجنس البازيدي Asterostroma medium Bres. 1920ينتمي الفطر البازيدي
Massee, 1889 ضمن العائلة البازيدية ،Lachnocladiaceae الرتبة البازيدية ،Russulales في ،
القبيلة البازيدية في مملكة الفطريات. يضم الجنس ، أحد صفوف Agaricomycetesالصف البازيدي
79
Asterostroma Massee, 1889 35 نوع إضافة للنوع الحالي أقرت في المصنفIndex
Fungorum ،
Asterostroma medium
80
3. Athelia acrospora الفطر البازيدي
Athelia acrosporta
h, a cluster of basidia and basidioles; i, clamped
hypha; j, basidiospores
Athelia acrosporta Julich, Willdenowia, 1972. Fructifications : Resupinate, pelliculose, fragile, loosely adnate to separable in
flakes, widely effused, up to 100 µ thick in section; hymenial surface white,
smooth but it appears finely granulose under the lens, Context sub hyaline in
section, composed of few, loosely arranged hyphae supporting a pellicle-like
hymenium at the top. hyphae 2.5-4.5 µ, subhyaline, thin-walled, branched at wide
angles, septate, clamps. absent or occasionally present at some of the septa among
the balal hyphae, Basidia l0-14 x 4.5-5 µ, Clavate-cylindrical 4.--spored,
sterigmata up to 4 µ long. Basidiospores 5-6 ellipsoid to ellipsoid-cylindrical,
subhyaline, , often occurring in groups, the walls thin, smooth, nonamyloicl
Collection examined : S. S. Rattan 204 (UBMH), on slash under Pinus halepensis
var. brtttia, Zawita (Dohuk), Iraq, January 29,1976. This species is common on
slash of Pinus and seems to be associated brown rot. It is characterized by the
shape and size of basidiospores and presence of only few clamps among the
basal hyphae.
81
الموسوعة العربية ألمراض النبات والفطريات
التابع للعائلة Athelia Pers. 1822للجنس Athelia acrospora Jülich 1972ينتمي الفطر البازيدي
، في Agaricomycetes، إحدى رتب الصف البازيدي Atheliales، والرتبة Atheliaceaeالبازيدية
ا النوع نوع بضمنه 125ما يقرب من Atheliaالقبيلة البازيدية داخل مملكة الفطريات. ينضوي تحت الجنس
. Index Fungorumالحالي أقرت في المصنف
Athelia acrospora
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4.Galzinia cystidiata البازيدي العراقي. الفطر
، K :Cystidium ،L :Basidiumحيث ، Galzinia cystidiataالبازيدي لتراكيب الفطرمخطط
m:Basidiole ،n ، بازيديوم في طور التكوين :oأبواغ بازيدية :
العراق، ماعدى المنطقة الشمالية ، فإن البحث على الرغم من عدم وجود غابات عديدة في أغلب مناطق
قد أسفر عن عزل سبعة (Wood Rotting Fungi) )الغابات( عن الفطريات المسببة لتعفن األخشاب
، بينما Galzinia Bourdot, 1922فطريات بازيدية أحدها أعتبر نوعا جديدا في الجنس البازيدي
Pinus halepensis varأعتبرت الفطريات األخرى كتسجيل أول لوجودها في غابة أشجار الصنوبر
brutia تضمنت الفطريات المعزولة األنواع الستة لمنطقة زاويتة التابعة لمحافضة دهوك في شمال العراق .
التالية: 1. Amphinema tomentellastrum
2. Asterostroma medium
3. Athelia acrospora
4. Gloeocystidium luridum
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5. Radulomyces submolaris
6. Stereum sanguinolentum
تم إعتماده وفق Galziniaنوع جديد في الجنس البازيدي Galzinia cystidiata بينما أعتبر الفطر
اإلسم التالي والذي يشمل إسم الفطر والمؤلفين والسنة وكما يلي:
Galzinia cystidiata S. S. Rattan & Abdullah 1977
تتواجد تحت الطبقة العليا تراكيب ( Resupinantus )وصف الفطر البازيدي بأنه من النوع السطحي
الفطر البازيدية من غزل فطري واألجسام البازيدية واألبواغ البازيدية . توصف مستعمرات الفطر على
ميكروميتر ، يرافق وجوده 250سم وسمك اليتعدى X 1 1.5جذوع وأغصان األشجار بأنها صغيرة بأبعاد
دية )تحت السطح( بيضاء إلى كريمي ، ناعمة بدون وجود تعفن أبيض اللون وتكون طبقة الحشوة البازي
. تتراوح أبعاد السيستيديا (No Clamp Connection)إتصال كالبي في الخيوط الفطرية
(Lumprocystidia) 45-100 X 12-18 ميكروميتر(µm) مغزلية الشكل إلى شبه مخروط ، والبازيديا
ذنيبات 4ل هراوية أو إسطوانية . تتواجد على البازيديا ميكروميتر بأشكا X 4.5-5.5 30-20بأبعاد
(Stregmata) 6-5تحمل األبواغ البازيدية وتكون أبعاد األبواغ X 2.5-3 كل بوغ محمول على ذنيب
ميكروميتر. 8بطول
ضمن العائلة، Galzinia Bourdot, 1922للجنس البازيدي Galzinia cystidiataينتمي الفطر الجديد
، أحد Agaricomycetes، داخل الصف البازيدي Corticiales، والرتبة Corticiaceae البازيدية
. ينضوي تحت الجنس (Basidiomycota /Fungi)صفوف القبيلة البازيدية في مملكة الفطريات
Galzinia اقي وكما يلي: وبضمنها النوع العر نوع( 13)األنواع البازيدية التالية
Galzinia athelioides Parmasto 1965; Galzinia culmigena (R.K. Webster & D.A.
Reid) B.N. Johri & Bandoni 1975; Galzinia cymosa D. P. Rogers 1944; Galzinia
cystidiata S. S. Rattan & Abdullah 1977; Galzinia ellipsospora S. S. Rattan
1977; Galzinia forcipata Pouzar 1983; Galzinia geminispora L.S. Olive 1954;
Galzinia incrustans (Höhn. & Litsch.) Parmasto 1965; Galzinia
longibasidia Hallenb. 1980; Galzinia occidentalis D. P. Rogers 1944; Galzinia
pedicellata Bourdot 1922; Galzinia sect. Membranogalzinia Parmasto 1968;
Galzinia vesana Boidin & Gilles 1990.
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5. Gloeocystidiellum luridum الفطر البازيدي
Gloeocystidium luridum تراكيب الفطر البازيدي
Basidia, b: Clamp Connection ; c:Basidiospores
للجنس البازيدي Gloeocystidiellum luridum (Bres.) Boidin 1951ينتمي الفطر البازيدي
Gloeocystidiellum Donk, 1931 ضمن العائلة البازيدية التي إختلف فيها المصنف ،Mycobank
، بينما وضع الجنس في Gloeocystidiellaceae Jülich 1981 ,حيث وضع الجنس ضمن العائلة
Species of Indexو Index Fungorumفي كل من المصنفين Russulalesالعائلة البازيدية
Fungorum(SIF) .تنتمي العائلتين لنفس الرتبة Russulales والصف البازيدي ،Agaricomycetes
85
نوع ضمن الجنس البازيدي 82يوجد القبيلة البازيدية في مملكة الفطريات . ، أحد صفوف
Gloeocystidiellum Donk, 1931 من ضمنها الفطر الحالي اقرها المصنفIndex Fungorum .
Gloeocystidiellum luridum
86
6.Radulomyces submolaris الفطر البازيدي
a, basidium; b, basidiole; c, basidiosporcs
الموسوعة العربية ألمراض النبات والفطريات
للجنس البازيدي ، Radulomyces submolaris Parmasto 1968ينتمي الفطر البازيدي
Radulomyces M.P. Christ. 1960 ضمن العائلة البازيدية ،Pterulaceae والرتبة ،
Agaricales أحد رتب الصف البازيدي ،Agaricomycetes ضمن القبيلة البازيدية في مملكة ،
Indexأقرها المصنف Radulomycesنوع آخر ضمن الجنس 23الفطريات. يوجد مع الفطر الحالي
Fungorum ومن الجدير بالذكر بأن المصنف .Species of Index Fungorum(SIF) قد جعل إسم
& Cerocorticium submolare (Parmasto) Jülichالفطر الحالي إسم مرادف إلسم بديل وهو
Stalpers 1980 .
87
Radulomyces molaris
88
7. Stereum songuinolentum البازيدي الفطر
Stereum songuinolentum , d: basidiole; e: Basidium; f: Cystidia; g: Basidiospores
الموسوعة العربية ألمراض النبات والفطريات
، ضمن العائلة Stereum، للجنس البازيدي Stereum sanguinolentum ينتمي الفطر البازيدي
Stereaceae والرتبةRussulales إحدى رتب الصف البازيدي ،Agaricomycetes ضمن القبيلة
نوع ضمن الجنس 700أكثر من Index Fungorumالبازيدية في مملكة الفطريات . ذكر المصنف
Stereum .
90
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