Jelena Vukojević – Citati (1979-2018)

Citiranost dr Jelene Vukojević bez autocitata do februara 2019. godine iznoci 2175 puta u časopisima

sa Kobson i Scopus lista i drugih baza, a koji nisu referisani u WoS bazi u trenutku kada je citat

publikovan, zatim u knjigama, poglavljima knjiga i inostranim tezama.

Citiranost prema godištu radova i citirane publikacije:

1985

Mihaljčević, M., Muntanola‐Cvetković, M., Vukojević, J., Petrov, M. (1985): Source of

infection of sunflower plants by Diaporthe helianthi in Yugoslavia. Journal of

Phytopathology, 113(4): 334-342. 1. Ploetz, R.C., Shokes, F. M. (1987): Factors influencing of soybean seedlind by southern

Diaporthe phaseolorum. Phytopathology, 77: 786-790

2. Bertrand, F., Tourvieille, D. (1987): Phomopsis tournesol: test de sélection. Informations

Techniques du Cetiom, 98: 12-18.

3. Fayret, J., Assemat, P. (1987) : Evolution du Diaporthe helianthi (Phomopsis helianti) Munt-

Cvet et al. et différenciation desorganes reproducteurs sur les plants du tournesol après la

période vegetation. Inform. Techniques CETIOM, 98: 2-11.

4. Jacobs, K.A., Glawe, A., Gray, L. E. (1988): Conidial nuclei in three species of

Diatrypaceae and Diaporthe vaccinii. Mycologia, 80(3): 307-311.

5. Nyvall, R.F. (1989): Diseases of sunflowers. In Field Crop Diseases Handbook, pp. 639-

659. Springer, Boston, MA.

6. Maširević, S., Gulya, T.J. (1992): Sclerotinia and Phomopsis - two devastating sunflower

pathogens. Field Crops Research, 30(3-4): 271-300.

7. Linders, E.G.A. (1996): A possible role of sexuality in the population structure of Diaporthe

adunca, a pathogen of Plantago lanceolata. Plant pathology, 45(4): 697-709.

8. Linders, E.G.A., Van Damme, J.M.M., Zadoks, J.C. (1996): Transmission and

overseasoning of Diaporthe adunca on Plantago lanceolata. Plant Patology, 45(1): 59-69.

9. Gulya, T.J. (1997): Phomopsis stem canker resistance in USDA and commercial sunflower

germplasm. Proceedings of the 19 th Sunflower Res.

10. Heller, A., Gierth, K. (2001): Cytological observations of the infection process by

Phomopsis helianthi Munt.‐Cvet. in leaves of sunflower. Journal of Phytopathology, 149(6):

347-357.

11. Kövics, Gy. J., Zsombik, L. (2001): A főbb ökológiai tényezők és a

napraforgó Diaporthe helianthi fertőzöttségének összefüggései. Növénytermelés, 50(4): 395-

405.

12. Vergara, M., Capasso, T., Gobbi, E., Vannacci, G. (2005): Plasmid distribution in European

Diaporthe helianthi isolates. Mycopathologia, 159(4): 591-599.

13. Диденко, А.О., Андросова, В.М. (2008): Образование аскоспор Diaporthe (Phomopsis)

helianthi Munt.-Cvet. et al in vitro. In Биологическая Защита Растений – Основа

Стабилизации Агроэкосистем, pp. 580-583.

14. Андросова, В.М., Балахнина, И.В., Диденко, А.О. (2010): Новые аспекты диагностики

фомопсиса подсолнечника. In Биологическая защита растений-основа стабилизации

агроэкосистем, pp. 198-213.

15. Thompson, S., Young, A., Shivas R. (2010): Phomopsis stem canker – An emerging disease

of Australian sunflowers. Proceedings of the Australian Summer Grains Conference, Gold

Coast, Australia, Edited paper.

16. Mathew, F.M., Alananbeh, K.M., Jordahl, J.G., Meyer, S.M., Castlebury, L.A., Gulya, T.J.,

Markell, S.G. (2015): Phomopsis stem canker: a reemerging threat to sunflower (Helianthus

annuus) in the United States. Phytopathology, 105(7): 990-997.

17. Harveson, R., Mathew, F., Gulya, T., Markell, S., Block, C., Thompson, S. (2018):

Sunflower stalk diseases initiated through leaf infections. Plant Health Progress, 19(1): 82-

91.

18. Mathew, F., Harveson, R., Gulya, T., Thompson, S., Block, C., Markell, S. (2018):

Phomopsis stem canker of sunflower. Plant Health Instructor. DOI: 10.1094/PHI-I-2018-

1103-01.

Muntañola-Cvetković, M., Mihaljčević, M., Vukojević, J., Petrov, M. (1985):

Comparisons of Phomopsis isolates obtained from sunflower plants and debris in

Yugoslavia. Transactions of the British Mycological Society, 85(3): 477-483. 1. Bertrand, F., Tourvieille, D. (1987): Phomopsis tournesol: test de sélection. Informations

Techniques du Cetiom, 98: 12-18.

2. Fayret, J., Assemat, P. (1987) : Evolution du Diaporthe helianthi (Phomopsis helianti) Munt-

Cvet et al. et différenciation desorganes reproducteurs sur les plants du tournesol après la

période vegetation. Inform. Techniques CETIOM, 98: 2-11.

3. Donald, P.A., Venette and, J.R. Gulya, T.J. (1987): Relationship between Phoma

macdonaldii and premature death of sunflower. Plant Disease, 71: 466–468.

4. Nyvall, R.F. (1989): Diseases of sunflowers. In Field Crop Diseases Handbook, pp. 639-

659. Springer, Boston.

5. Van der Aa, H.A.; Noordeloos, M. E.; Gruyter, J. de (1990): Species concepts in some larger

genera of the Coelomycetes. Studies in Mycology, 32: 3-19.

6. Carriere, J.B., Petrov, M. (1990): Diaporthe (Phomosis) sp., a new pathogen of cocklbbur

(Xanthium italicum Moretti) and of sunflower (Helianthus annuus L. ), Helia, 13(13): 93-

106

7. Maširević, S., Gulya, T.J. (1992): Sclerotinia and Phomopsis — two devastating sunflower

pathogens. Field Crops Research, 30(3-4): 271-300.

8. Gulya, T.J. (1997): Phomopsis stem canker resistance in USDA and commercial sunflower

germplasm. Proceedings of the 19th Sunflower Research.

9. Degener, J., Melchinger, A.E., Hahn, V. (1999): Resistance in the leaf and stem of sunflower

after infection with two isolates of Phomopsis. Plant Breeding, 118(5): 405-410.

10. Thompson, S.M., Tan, Y.P., Oung, A.J., Neate, S.M., Aitken, E.A.B., Shivas, R.G. (2011):

Stem cankers on sunflower (Helianthus annuus) in Australia reveal a complex of pathogenic

Diaporthe (Phomopsis) species. Persoonia: Molecular Phylogeny and Evolution of

Fungi, 27: 80-89.

11. Bansode, S.A. (2013): Mutagenesis and regeneration of sunfiower genotypes (Doctoral

dissertation, Vasantrao Naik Marathwada Krishi Vidyapeeth, Parbhani).

12. Ivancovich, A., Lavilla, M. (2016): Cancro del tallo en girasol (Helianthus annus L.)

causado por el complejo Diaporthe/Phomopsis helianthi Munt.-Cvet. Estación Experimental

Agropecuaria Pergamino.

Muntañola-Cvetković, M., Bojović-Cvetić, D., Vukojević, J. (1985): An ultrastructural

study of - and -conidia in the fungal genus Phomopsis. Cryptogamie Mycolologie, 6: 171-

184. 1. De Nooij, M.P., Van Der Aa, H.A. (1987): Phomopsia subordinaria and associated stalk disease

in natural populations of Plantago lanceolate. Canadian Journal of Botany, 65(22): 2318-2325.

2. Van der Aa, H.A.; Noordeloos, M. E.; Gruyter, J. de (1990): Species concepts in some larger

genera of the Coelomycetes. Studies in Mycology, 32: 3-19.

3. Linders, E.G.A., Van Damme, J.M.M., Zadoks, J.C. (1996): Transmission and overseasoning of

Diaporthe adunca on Plantago lanceolata. Plant Patology, 45(1): 59-69.

4. Linders, E.G., Hubertus, A., Vander, A. (1995): Taxonomy, sexuality and mating types

of Diaporthe adunc. Mycological Research, 99(12): 1409-1416.

5. Rosskope, E.N., Charudattan, R., Shabana, Z.M., Benny, G.L. (2000): Phomopsis

amaranthicola. a new specie from Amaranthus sp. Mycologia, 92(1): 114-122.

6. Sergeeva V, Nair, G, Barchia I, et al.(2003): Germination of ß conidia of Phomopsis viticola.

Australasian Plant Patholohy, 32 (1): 105-107.

1988

Muntañola-Cvetković, M., Mihaljčević, M., Vukojević, J. (1988): Dosadašnji rezultati

istraživanja Phomopsis/Diaporthe helianthi na suncokretu. I. Mikološki aspekti. Plant

Protection, 39(4),186: 469-478. 1. Vrandecic, K., Jurkovic, D., Riccioni, L., Cosic, J., Duvnjak, T. (2010): Xanthium italicum,

Xanthium strumarium and Arctium lappa as new hosts for Diaporthe helianthi.

Mycopathologia, 170(1): 51-60.

2. Lesovoy, M.P., Parfenyuk, A.I., Vasilyuk, L.A. (1993): Phomopsis of sunflower in the

Ukraine and the development of breeding methods for resistance. Archives of

Phytopathology & Plant Protection, 28(4): 321-328.

1989

Muntañola-Cvetković, M., Vukojević, J., Mihaljčević, M. (1989): Pathohistology of

sunflower stems attacked by Diaporthe helianthi. Canadian Journal of Botany, 67: 1119-

1125. 1. Carriere, J.B., Petrov, M. (1990): Diaporthe (Phomosis) sp., a new pathogen of cocklbbur

(Xanthium italicum Moretti) and of sunflower (Helianthus annuus L.), Helia, 13(13): 93-

106.

2. Maširević, S., Gulya, T. J. (1992): Sclerotinia and Phomopsis—two devastating sunflower

pathogens. Field Crops Research, 30(3-4): 271-300.

3. Peričin, D., Jarak, M., Antov, M., Dozet, B. (1994): Pectinase from Phomopsis helianthi -

the agent of sunflower stem canker. Helia, 17(20): 21-30.

4. Gulya, T.J. (1997): Phomopsis stem canker resistance in USDA and commercial sunflower

germplasm. Proceedings of the 19 th Sunflower Res.

5. Duletić-Laušević, S., Mihaljčević, M. (1998): Comparative anatomical analysis of the

vascular system in selected Helianthus annuus genotypes. In Progress in Botanical

Research, pp. 485-488. Springer, Dordrecht.

6. Deglene, L., Alibert, G., Lesigne, P., Delabrouhe, D.T., Sarrafi, A. (1999): Inheritance of

resistance to stem canker (Phomopsis helianthi) in sunflower. Plant Pathology, 48(4): 559-

563.

7. Roustaee, A., Dechamp-Guillaume, G., Gelie, B., Savy, C., Dargent, R., Barrault, G. (2000):

Ultrastructural studies of the mode of penetration by Phoma macdonaldii in sunflower

seedlings. Phytopathology, 90(8): 915-920.

8. Heller, A., Gierth, K. (2001): Cytological observations of the infection process by

Phomopsis helianthi Munt.‐Cvet. in leaves of sunflower. Journal of Phytopathology, 149(6):

347-357.

9. El-Sayed, W., Kang, Z., Hurle, K. (2002): Infection process of Phomopsis convolvulus as a

mycoherbicide for Convolvulus arvensis L. Journal of Plant Diseases and Protection, 180-

192.

10. Debaeke, P., Estragnat, A., Reau, R. (2003): Influence of crop management on sunflower

stem canker (Diaporthe helianthi). Agronomie, 23(7): 581-592.

11. Vergara, M., Cristani, C., Regis, C., Vannacci, G. (2004): A coding region in Diaporthe

helianthi reveals genetic variability among isolates of different geographic

origin. Mycopathologia, 158(1): 123–130.

12. Abou Al Fadil, T. (2006): Déterminisme de la tolérance du tournesol à Phoma macdonaldii

au collet et sur racines: approches génétiques et histologiques. (Doctoral dissertation, Institut

National Polytechnique de Toulouse).

13. Androsova, V., Balakhnina, I., Gulya, T. (2008): Structural aspects regarding formation and

emission of Diaporthe (Phomopsis) helianthi ascospores. In Abstract book «17th

International Sunflower Conference» – Spain, 1: 103-107.

14. Al Fadil, T., Naffaa, W., Martinez, Y., Dechamp-Guillaume, G. (2011): Mode of penetration

by Phoma macdonaldii in susceptible and tolerant sunflower genotypes. Arab Journal of

Plant Protection, 29: 131-138.

15. Dan, S.U., Ru-jun, Z.H.O.U., Xue-rui, Y.A.N., Shu-yi, Y., Jun-Fan, F. U. (2012): Infection

and establishment of Ascochyta anemones in leaves of windflower. African Journal of

Microbiology Research, 6(23): 4983-4988.

16. Catalano, V., Rekab, D., Firrao, G., Vannacci, G., Vergara, M. (2012): An

endopolygalacturonase gene of Diapotthe helianthi. Phytopathologia Mediterranea, 51(1):

23-36.

17. Zimowska, B. (2014): Pathogenicity and ultrastructural studies of the mode of penetration by

Phyllosticta plantaginis in ribwort leaves. Acta Scientiarum Polonorum, Hortorum

Cultus, 13: 143-153.

18. Mathew, F., Harveson, R., Gulya, T., Thompson, S., Block, C., Markell, S.(2018):

Phomopsis stem canker of sunflower. Plant Health Instructor. DOI: 10.1094/PHI-I-2018-

1103-01.

1991

Muntañola-Cvetković, M.,J Vukojević, J., Mihaljčević, M. (1991): The systemic nature

of the sunflower disease caused by Diaporthe helianthi. Canadian Journal Of Botany,

69(7): 1552-1556. 1. Maširević, S., Gulya, T.J. (1992): Sclerotinia and Phomopsis — two devastating sunflower

pathogens. Field Crops Research, 30(3-4): 271-300.

2. Pericin, D., Jarak, M., Anotv, M., and Dozet, B. (1994): Pectinase

from Phomopsis helianthi-the agent of sunflower stem canker. Helia, 17(20): 21-30.

3. Linders, E.G.A., Van Damme, J.M.M., Zadoks, J.C. (1996): Transmission and

overseasoning of Diaporthe adunca on Plantago lanceolata. Plant Patology, 45(1): 59-69.

4. Gulya, T.J. (1997): Phomopsis stem canker resistance in USDA and commercial sunflower

germplasm. Proceedings of the 19 th Sunflower Res.

5. Duletić-Laušević, S., Mihaljĉević, M. (1997): The comparison of anatomical structure

among susceptible Helianthus annuus L., resistant H. argophyllus L. and their progenies.

Helia, 20(26): 17-28.

6. Duletić-Laušević, S., Mihaljčević, M. (1998): Comparative anatomical analysis of the

vascular system in selected Helianthus annuus genotypes. In Progress in Botanical

Research, pp. 485-488. Springer, Dordrecht.

7. Lesovoy, M.P., Marchenko, O.A. (1999): Mechanisms of penetration and defeat of plants of

sunflower by a fungus Phomopsis/Diaporthe helianthi (Munt.‐Cvet. ET AL). Archives of

Phytopathology & Plant Protection, 32(3): 223-228.

8. Heller, A., Gierth, K. (2001): Cytological observations of the infection process by

Phomopsis helianthi Munt.‐Cvet. in leaves of sunflower. Journal of Phytopathology, 149(6):

347-357.

9. Vergara, M., Cristani, C., Regis, C., Vannacci, G. (2004): A coding region in Diaporthe

helianthi reveals genetic variability among isolates of different geographic

origin. Mycopathologia, 158(1): 123-130.

10. Rossman, A.Y., Farr, D.F., Castlebury, L.A. (2007): A review of the phylogeny and biology

of the Diaporthales. Mycoscience, 48(3): 135-144.

11. Андросова, В.М., Балахнина, И.В., Диденко, А.О. (2010): Hовые аспекты диагностики

фомопсиса подсолнечника. In Биологическая защита растений-основа стабилизации

агроэкосистем, pp. 198-213.

12. Catalano, V., Rekab, D., Firrao, G., Vannacci, G., Vergara, M. (2012): An

endopolygalacturonase gene of Diapotthe helianthi. Phytopathologia Mediterranea, 51(1):

23-36.

13. Ghosh, S.K., Banerjee, S. (2015): First report of Diaporthe phaseolorum on Bacopa

monnieri in India. Journal of Plant Pathology, 97(Supplement). pp.S68 ref.3.

14. Диденко, А.О. (2015): Биологические основы развития и контроля возбудителя

фомопсиса подсолнечника в условиях. (Диссертации России, Сельскохозяйственные

науки, Плодоводство Краснодарского Края).

15. Boas, S.A.V., Oliveira, S.A.S.D., Bragança, C.A.D., Ramos, J.B., Oliveira, E.J.D. (2017):

Survey of fungi associated with cassava root rot from different producing regions in

Brazil. Scientia Agricola, 74(1): 60-67.

16. Ruocco, M., Baroncelli, R., Cacciola, S.O., Pane, C., Monti, M.M., Firrao, G., Vergara, M.,

Magnano di San Lio, G., Vannacci, G., Scala, F. (2018): Polyketide synthases of Diaporthe

helianthi and involvement of DhPKS1 in virulence on sunflower. BMC Genomics, 19(1): 27.

doi.org/10.1186/s12864-017-4405-z.

17. Mathew, F., Harveson, R., Gulya, T., Thompson, S., Block, C., Markell, S.(2018):

Phomopsis stem canker of sunflower. Plant Health Instructor, DOI: 10.1094/PHI-I-2018-

1103-01.

1992

Milenković, M., Glamočlija, J., Veljković, V., Vukojević, J. (1992): Record of two Tuber

(T. aestivum Vitt. and T. melanosporum Vitt.) species in Serbia. Archives of Biological

Sciences, 44 (3-4): 223-228. 1. Riousset, L. (2001): Truffes d'Europe et de Chine. Editions Quae. pp. 181.

2. Marjanovic, Z., Grebenc, T., Markovic, M., Glisic, A., Milenkovic, M. (2010): Ecological

specificity and molecular diversity of truffles (genus Tuber) originating from mid-west of the

Balkan Peninsula. Sydowia, 62(1): 273-291.

3. Samaniego, Y.P. (2012): Ectomycorrhiza diversity in natural Tuber aestivum Vittad.

grounds. (Doctoral dissertation, University of Ljubljana, Biotehnical Faculty).

4. Djurdjević, L., Gajić, G., Jarić, S., Kostić, O., Pavlović, M., Pavlović, P., Mitrović, M.

(2015): Effects of seasonal dynamics of phenolics in oak forest on truffles (Tuber

macrosporum Vitt.). Allelopathy Journal, 35(1): 109-128.

5. Katanić, M., Marković, M., Pap, P., Zlatković, M., Pekeč, S., Kovačević, B. (2017): Biology

and cultivation of truffles in the world and in Serbia. Topola, (199-200), 177-192.

6. Stanojković, J. N., Glamočlija, J. M., Janošević, D. A. (2017): Morpho-anatomical

characterization of Tuber macrosporum/Corylus avellana mycorrhizas from cultivated

seedlings: case report. Matica Srpska Journal for Natural Sciences, (133).

7. Păcurar, H., Dirja, M., Buta, M., Păcurar, I., Roșca, S., Bilașco, Ș. (2018): Identification of

soils factors influence in the distributions of Tuber aestivum in Transylvanian Subcarpathian

Hill, Romania. Notulae Botanicae Horti Agrobotanici Cluj-Napoca, 47(2): 478-486.

1994

Mihaljčević, M., Vukojević , J. (1994): Diaporthe (Phomopsis) spp. on weeds as possible

causative agents of sunflower stem cancer in the Vojvodina province. Helia, 17(20): 39-

48. 1. Diaz Franco, A., Ortegon Morales A., (1997): Influence of sunflower stem canker (Diaporthe

helianthi) on seed quality and yield during seed development. Helia, 20(26): 57–62. 2. Gulya, T.J. (1997): Phomopsis stem canker resistance in USDA and commercial sunflower

germplasm. Proceedings of the 19 th Sunflower Res.

3. Degener, J., Melchinger, A.E., Hahn, V. (1999). Resistance in the leaf and stem of sunflower

after infection with two isolates of Phomopsis. Plant breeding, 118(5): 405-410.

4. Pecchia, S., Mercatelli, E., Vannacci, G. (2004): Intraspecific diversity within Diaporthe

helianthi: evidence from rDNA intergenic spacer (IGS) sequence analysis.

Mycopathologia, 157(3): 317-326.

5. Jurković, D., Vrandečić, K., Ćosić, J., Riccioni, L., Duvnjak, T. (2007): Morphological

identification of Diaporthe/Phomopsis sp. isolated from Xanthium italicum. Poljoprivreda,

13(2): 10-14.

6. Vrandecic, K., Jurkovic, D., Riccioni, L., Cosic, J., Duvnjak, T. (2010): Xanthium italicum,

Xanthium strumarium and Arctium lappa as new hosts for Diaporthe helianthi.

Mycopathologia, 170(1): 51-60.

7. Verschoor, M., Castano, F., Ridao, A., Salaberry, T. (2018): Variabibilidad de la longitud del

cancro causado por dos aislamientos de Phomopsis helianthi en tallos de híbridos de

girasol. SEMIÁRIDA Revista de la Facultad de Agronomía UNLPam, 24(1): 39-48.

1995

Vukojević, J., Franić-Mihajlović, D., Mihaljčević, M. (1995): In vitro production of

perithecia of Diaporthe helianthi. Mycopathologia, 132(1): 21-25. 1. Gulya, T. J. (1997): Phomopsis stem canker resistance in USDA and commercial sunflower

germplasm. Proceedings of the 19 th Sunflower Res.

2. Pennisi, A.M., Abenavoli, M.R., Maimone, B., Di Dio, L. (2002): In planta and in vitro

interactions between Phomopsis (Diaporthe) isolates and sunflower. Plant Protection

Science - Prague, 38: 461-465.

3. Viguié, A., Says-Lesage, V., Walser, P., Tourvieille, J., Drevet, P., Nicolas, P., Vear, F.,

Tourvieille de Labrouhe. D. (2005): Molecular and phenotypic characterisation of French

isolates of Diaporthe helianthi/Phomopsis helianthi Munt.-Cvet.

4. Vrandečić, K., Jurković, D., Ćosić, J. (2009): Influence of nutrition media on formation of

perithecia of Diaporthe helianthi Phomopsis helianthi Munt.-Cvet.. Poljoprivreda, 15(1): 1-

10.

5. Андросова, В. М., Балахнина, И. В., Диденко, А. О. (2010): Новые аспекты

диагностики фомопсиса подсолнечника. In Биологическая защита растений-основа

стабилизации агроэкосистем, pp. 198-213.

1996

Muntañola-Cvetković, M., Vukojević, J., Mihaljčević, M. (1996): Cultural growth

patterns and incompatibility reactions in Diaporthe and Phomopsis populations. Journal

of Phytopahology, 144(6): 285-295. 1. Frazer, L. N. (1997): One stop mycology. Mycological research, 101(2): 226-256.

2. Rawnsley, B. (2002): Phomopsis taxon 1 on grapevine: pathogenicity and

management (Doctoral dissertation, The University of Adelaide).

3. Rekab, D., Del Sorbo, G., Reggio, C., Zoina, A., Firrao, G. (2004): Polymorphisms in

nuclear rDNA and mtDNA reveal the polyphyletic nature of isolates of Phomopsis

pathogenic to sunflower and a tight monophyletic clade of defined geographic origin.

Mycological Research, 108(4): 393-402.

4. Vergara, M., Capasso, T., Gobbi, E., Vannacci, G. (2005): Plasmid distribution in European

Diaporthe helianthi isolates. Mycopathologia, 159(4): 591-599.

5. Jurković, D., Vrandečić, K., Ćosić, J., Riccioni, L., Duvnjak, T. (2007): Morphological

identification of Diaporthe/Phomopsis sp. isolated from Xanthium italicum. Poljoprivreda,

13(2): 10-14.

6. Vrandecic, K., Jurkovic, D., Cosic, J., Riccioni, L., Duvnjak, T. (2008): Morphological and

molecular identification of Diaporthe helianthi from Xanthium italicum. In Proceedings of

the 17th International Sunflower Conference – Cordoba, Spain, pp. 121-124.

7. Vrandečić, K., Jurković, D., Ćosić, J. (2009): Influence of nutrition media on formation of

perithecia of Diaporthe helianthi Phomopsis helianthi Munt.-Cvet. Poljoprivreda, 15(1): 5-

10.

8. Vrandecic, K., Jurkovic, D., Riccioni, L., Cosic, J., Duvnjak, T. (2010): Xanthium italicum,

Xanthium strumarium and Arctium lappa as new hosts for Diaporthe helianthi.

Mycopathologia, 170(1): 51-60.

9. Vrandečić, K., Jurković, D., Riccioni, L., Ćosić, J., Poštić, J. (2010): Occurence of

Phomopsis sp. on Achillea millefolium. Poljoprivreda, 16(1): 3-7.

10. Udayanga, D., Liu, X., McKenzie, E.H.C., Bahkali, A.H.A., Hyde, K.D. (2011): The genus

Phomopsis: Biology, applications, species concepts and names of common phytopathogens.

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167. Gil, E., Cuca, L.E., Delgado, W.A. (2016): Chemical composition and antimicrobial activity

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169. Hrideek, T.K., Ginu, J., Raghu, A.V., Jijeesh, C.M. (2016): Phytochemical profiling of bark

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173. Louail, Z., Kameli, A., Benabdelkader, T., (...), Hamza, K., Krimat, S. (2016): Antimicrobial

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177. Abbaszadegan, A., Dadolahi, S., Gholami, A., (...), Ghasemi, Y., Abbott, P.V. (2016):

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180. Prabhuswamy, B., Mallikarjun, N., Nagaraj, K.T.M.V. (2016): Antibiogram profile and

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181. Hashemi, M. (2016): Chemical composition and antifungal effect of Echinophora platyloba

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182. Sarrazin, S.L.F., Oliveira, R. B., Maia, J.G.S., Mourão, R.H.V. (2016): Antibacterial activity

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185. Muthukumar, A., Udhayakumar, R., Naveenkumar, R. (2016): Eco friendly management of

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159. Ghany, A. (2014): Eco-friendly role of Juniperus procera as safe alternative for controlling

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168. Tawfick, M.M., Gad, A.S. (2014): In vitro antimicrobial activities of some Egyptian plants'

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169. Kavas, G., Kavas, N. (2014): The effects of mint (Mentha spicata) essential oil fortified

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170. Das, A., Raychaudhuri, U., Chakraborty, R. (2014): Nutraceuticals derived from plant

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180. Tomescu, A., Sumalan, R.M., Pop, G., Alexa, E., Poiana, M.A., Copolovici, D. M., (...),

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183. Kazemi, M. (2015): Chemical composition and antimicrobial activity of essential oil of

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195. Zeljković, S.Ć., Maksimović, M. (2015): Chemical composition and bioactivity of essential

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201. Yang, J.Y., Lee, H.W., Lee, H.S. (2015): Growth inhibitory activities of myrtanol and

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202. El-kazzaz, M.K., Salem, E.A., Ghoneim, K.E., Elsharkawy, M.M., El-Kot, G., Kalboush,

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as substrate for production of Pleurotus eryngii. Indian Journal of Microbiology, 53: 181-

186.

13. Sun, X., Hao, L., Ma, H., Li, T., Zheng, L., Ma, Z., Zhai, G., Wang, L., Gao, S., Liu, X., Jia,

M., Jia, L. (2013): Extraction and in vitro antioxidant activity of exopolysaccharide by

Pleurotus eryngii SI02. Brazilian Journal of Microbiology, 44: 1081-1088.

14. Zhang, R.Y., Hu, D.D., Ma, X.T., Li, S.G., Gu, J.G., Hu, Q.X. (2014): Adopting stick spawn

reduced the spawn running time and improved mushroom yield and biological efficiency of

Pleurotus eryngii. Scientia Horticulturae, 175: 156-159.

15. Ohyama, Y., Matsushita, H., Minami, A., Kanazawa, H., Suzuki, T., Watanabe, K.,

Wakatsuki, A. (2014): Effect of the ethanol extract of Pleurotus eryngii on bone metabolism

in ovariectomized rats. Climacteric, 17: 492-499.

16. Knop, D., Ben-Ari, J., Salame, T.M., Levinson, D., Yarden, O., Hadar, Y. (2014): Mn2+

-

deficiency reveals a key role for the Pleurotus ostreatus versatile peroxidase (VP4) in

oxidation of aromatic compounds. Applied Microbiology and Biotechnology, 98: 6795-6804.

17. Salame, T.M., Knop, D., Levinson, D., Mabjeesh, S.J., Yarden, O., Hadar, Y. (2014):

Inactivation of a Pleurotus ostreatus versatile peroxidase-encoding gene (mnp2) results in

reduced lignin degradation. Environmental Microbiology, 16: 265-277.

18. Knop, D., Yarden, O., Hadar, Y. (2014): The ligninolytic peroxidases in the genus

Pleurotus: divergence in activities, expression, and potential applications. Applied

Microbiology and Biotechnology, 99: 1025-1038.

19. Villani, A., Mulè, G., Susca, A., Mastropasqua, L., Paciolla, C. (2014): Molecular markers

for the traceability of cardoncello (Pleurotus eryngii var. eryngii), Italian Botanist, 46(2):

335-338.

20. Feldman, D., Kowbel, D.J., Glass, N.L., Yarden, O., Hadar, Y. (2015): Detoxification of 5-

hydroxymethylfurfural by the Pleurotus ostreatus lignolytic enzymes aryl alcohol oxidase

and dehydrogenase. Biotechnology for Biofuels, 8: 63. doi.org/10.1186/s13068-015-0244-9

21. Liu, X., Wang, L., Zhang, C., Wang, H., Zhang, X., Li, Y. (2015):. Structure characterization

and antitumor activity of a polysaccharide from the alkaline extract of king oyster

mushroom. Carbohydrate Polymers, 118: 101-106.

22. Gao, W., Liang, J., Pizzul, L., Feng, X.M., Zhang, K., Castillo, M.D.P. (2015): Evaluation of

spent mushroom substrate as substitute of peat in Chinese biobeds. International

Biodeterioration and Biodegradation, 98: 107-112.

23. Xu, J.K., Ma, J.C., Luo, P. (2015): Pleurotus eous polysaccharides suppress angiogenesis

and induce apoptosis via ROS-dependent JNK activation and mitochondrial mediated

mechanisms in MCF-7 human breast cancer cells. Bangladesh Journal of Pharmacology, 10:

78-86.

24. Villani, A., Galli, E., Paciolla, C., (...), Mulè, G., Susca, A. (2015): Molecular

characterization of Pleurotus eryngii varieties occurring in Italy. Sydowia, 67: 33-43.

25. Kikuchi, T., Masumoto, Y., In, Y., (...), Yamada, T., Tanaka, R. (2015): Eringiacetal A, 5,6-

seco-(5S,6R,7R,9S)-5,6:5,7:6,9-triepoxyergosta-8(14),22-diene-3β,7β-diol, an unusual

ergostane sterol from the fruiting bodies of Pleurotus eryngii. European Journal of Organic

Chemistry, 2015(21): 4645-4649.

26. Zhao, Y., Wang, Y., Song, Z., (...), Zhu, R., Liu, F. (2016: Development of a simple, low-

cost and eurytopic medium based on Pleurotus eryngii for lactic acid bacteria. Open Access

AMB Express, 6(1): 65.

27. Jeznabadi, E.K., Jafarpour, M., Eghbalsaied, S., Pessarakli, M. (2017): Effects of various

substrates and supplements on king oyster (Pleurotus eryngii). Compost Science and

Utilization, 25: S1-S10.

28. Pozdnyakova, N., Balandina, S., Turkovskaya, O. (2017): Degradative properties of

Pleurotus fungi (Book Chapter), Pleurotus Mushrooms: Ecology, Cultivation and Uses, pp.

1-56.

29. Haidukowski, M., Cozzi, G., Dipierro, N., (...), Logrieco, A.F., Paciolla, C. (2017):

Decontamination of fumonisin B1 in maize grain by Pleurotus eryngii and antioxidant

enzymes. Phytopathologia Mediterranea, 56(1): 134-145.

Potočnik, I., Vukojević, J., Stajić, M., Rekanović, E., Milijašević, S., Todorović, B.,

Stepanović, M. (2009): In vitro toxicity of selected fungicides from the groups of

benzimidazoles and demethylation inhibitors to Cladobotryum dendroides and Agaricus

bisporus. Journal of Environmental Science and Health, Part B. Pesticides, Food

Contaminants, and Agricultural Waste, B, 44(4): 365-370. 1. Potočnik, I. (2009): Identification and control of Cladobotryum spp., causal agents of

cobeweb disease of cultivated mushroom. Pesticidi i fitomedicina, 24: 165-175.

2. Buchanan, I., Liang, H.C., Liu, Z., Razaviarani, V., Rahman, Md.Z. (2010): Pesticides and

herbicides. Water Environment Research, 82: 1594-1693.

3. Chavan, S.S. (2011): Management of fungicide resistance in Gloeosporium ampelophagum

causing anthracnose of grapes. (Book).

4. Milijašević-Marčić, S., Todorović, B., Potočnik, I., Stepanović, M., Rekanović, E. (2012):

First report of Pseudomonas tolaasii on Agaricus bisporus in Serbia. Phytoparasitica, 40:

299-303.

5. Potočnik, I. (2012): Cultivated mushrooms: Disease control in mushroom industry. (Book

Chapter), Mushrooms: types, properties and nutrition, 55-76.

6. Tamm, H., Põldmaa, K. (2013): Diversity, host associations, and phylogeography of

temperate aurofusarin-producing Hypomyces/Cladobotryum including causal agents of

cobweb disease of cultivated mushrooms. Fungal Biology, 117: 348-367.

7. Fitzmaurice, A.G., Rhodes, S.L., Lulla, A., Murphy, N.P., Lam, H.A., O'Donnell, K.C.,

Barnhill, L., Casida, J.E., Cockburn, M., Sagasti, A., Stahl, M.C., Maidment, N.T., Ritz, B.,

Bronstein, J.M. (2013): Aldehyde dehydrogenase inhibition as a pathogenic mechanism in

Parkinson disease. Proceedings of the National Academy of Sciences of the United States of

America, 110: 636-641.

8. Fitzmaurice, A.G., Rhodes, S.L., Cockburn, M., Ritz, B., Bronstein, J. M. (2014): Aldehyde

dehydrogenase variation enhances effect of pesticides associated with Parkinson

disease. Neurology, 82(5): 419-426.

9. Đurović-Pejčev, R., Potočnik, I., Milijašević-Marčić, S., Todorović, B., Rekanović, E.,

Stepanović, M. (2014): Antifungal activity of six plant essential oils from Serbia against

Trichoderma aggressivum f. europaeum. Pesticidi i fitomedicina, 29: 291-297.

10. Potočnik, I., Stepanović, M., Rekanović, E., Todorović, B., Milijašević-Marčić, S. (2015):

Disease control by chemical and biological fungicides in cultivated mushrooms: Button

mushroom, oyster mushroom and shiitake. Pesticidi i fitomedicina, 30(4): 201-208.

11. Chakwiya, A., Van der Linde, E.J., Korsten, L. (2015): In vitro sensitivity testing of

Cladobotryum mycophilum to carbendazim and prochloraz manganese. South African

Journal of Science, 111(11-12): 1-7.

12. Djurovic-Pejcev, R., Potocnik, I., Milijasevic-Marcic, S., Todorovic, B., Rekanovic, E.,

Stepanovic, M. (2015): Antifungal activity of six plant essential oils from Serbia against

Trichoderma aggressivum f. europaeum. Pesticidi i fitomedicina, 29(4): 291–297.

13. Milijašević-Marčić, S., Todorović, B., Stepanović, M., Duduk, B., Stepanović, J.,

Rekanović, E., Potočnik, I. (2016): Monitoring of bacterial diseases of Agaricus bisporus in

Serbia. Pesticidi i fitomedicina, 31(1-2): 29-35.

14. Potočnik, I., Todorović, B., Đurović-Pejčev, R., Stepanović, M., Rekanović, E., Milijašević-

Marčić, S. (2016): Antimicrobial activity of biochemical substances against pathogens of

cultivated mushrooms in Serbia. Pesticidi i fitomedicina, 31(1-2), 19-27.

15. Omoyele, A.D. (2016): Estimation of fungicide toxicity for pathogen: Lasiodiplodia

theobromae. Journal of Research in Environmental Science and Toxicology, 5(1): 1-6.

16. Carrasco Carrasco, J. (2016): Estudio de la telaraña del champiñón causada por

Cladobotryum mycophilum en cultivos españoles. (Doctotal dissetratio, Universidad de

Castilla-la Mancha).

17. Shin, J.H., Fu, T., Park, K.H., Kim, K.S. (2017): The effect of fungicides on mycelial growth

and conidial germination of the ginseng root rot fungus, Cylindrocarpon destructans Open

Access Mycobiology, 45(3): 220-225.

18. Gea, F.J., Carrasco, J., Suz, L.M., Navarro, M.J. (2017): Characterization and pathogenicity

of Cladobotryum mycophilum in Spanish Pleurotus eryngii mushroom crops and its

sensitivity to fungicides. European Journal of Plant Pathology, 147(1): 129-139.

19. Potočnik, I., Stepanović, M. (2017): Biological control of fungal diseases of edible

mushrooms (Book Chapter), Biocontrol Agents: Types, Applications and Research

Insights, pp. 63-92.

20. Carrasco, J., Navarro, M.J., Santos, M., Gea, F.J. (2017): Effect of five fungicides with

different modes of action on cobweb disease (Cladobotryum mycophilum) and mushroom

yield. Annals of Applied Biology, 171(1): 62-69.

21. Luković, J., Stepanović, M., Todorović, B., Milijašević-Marčić, S., Duduk, N., Vico, I.,

Potočnik, I. (2018): Antifungal activity of cinnamon and clove essential oils against button

mushroom pathogens Cladobotryum dendroides (Bull.) W. Gams & Hooz and Lecanicillium

fungicola var. fungicola (Preuss) Hasebrauk. Pesticidi i fitomedicina, 33(1): 19-26.

Potočnik, I., Vukojević, J., Stajić, M., Rekanović, E., Milijašević, S., Stepanović, M.,

Todorović, B. (2009). Toxicity of fungicides with different modes of action to

Cladobotryum dendroides and Agaricus bisporus. Journal of Environmental Science and

Health Part B, 44(8): 823-827. 1. Potočnik, I. (2009): Identification and control of Cladobotryum spp., causal agents of

cobeweb disease of cultivated mushroom. Pesticidi i fitomedicina, 24(3): 165-175.

2. Todorović, B., Milijasević-Marčić, S., Potočnik, I., Stepanović, M., Rekanović, E., Nikolić-

Bujanović, L., Čekerevac, M. (2012): In vitro activity of antimicrobial agents against

Pseudomonas tolaasii, pathogen of cultivated button mushroom. Journal of Environmental

Science and Health, Part B, 47(3): 175-179.

3. Potočnik, I. (2012): Cultivated mushrooms: Disease control in mushroom industry. (Book

Chapter). Mushrooms: Types, Properties and Nutrition, 55-76.

4. Potočnik, I., Stepanović, M., Rekanović, E., Todorović, B., Milijašević-Marčić, S. (2015):

Disease control by chemical and biological fungicides in cultivated mushrooms: Button

mushroom, oyster mushroom and shiitake. Pesticidi i fitomedicina, 30(4): 201-208.

5. Potočnik, I., Todorović, B., Đurović-Pejčev, R., Stepanović, M., Rekanović, E., Milijašević-

Marčić, S. (2016): Antimicrobial activity of biochemical substances against pathogens of

cultivated mushrooms in Serbia. Pesticidi i fitomedicina, 31(1-2): 19-27.

6. Carrasco Carrasco, J. (2016): Estudio de la telaraña del champiñón causada por

Cladobotryum mycophilum en cultivos españoles. (Doctoral dissertation, Universidad de

Castilla-la Mancha)

7. Gea, F.J., Carrasco, J., Suz, L. M., Navarro, M. J. (2017): Characterization and pathogenicity

of Cladobotryum mycophilum in Spanish Pleurotus eryngii mushroom crops and its

sensitivity to fungicides. European Journal of Plant Pathology, 147(1): 129-139.

8. Carrasco, J., Navarro, M. J., Santos, M., Gea, F. J. (2017). Effect of five fungicides with

different modes of action on cobweb disease (Cladobotryum mycophilum) and mushroom

yield. Annals of Applied Biology, 171(1): 62-69.

9. Potočnik, I., Stepanović, M. (2017): Biological control of fungal diseases of edible

mushrooms (Book Chapter), Biocontrol Agents: Types, Applications and Research

Insights, pp. 63-92

10. Rekanović, E., Stepanović, M., Potočnik, I. (2018): The late blight of potatoes by the

pseudofungus phytophthora infestans (mont.) de Bary: Control options and resistance to

fungicides (Book Chapter), Fungicides: Perspectives, Resistance Management and Risk

Assessment, pp. 211-260.

Džamić, A., Soković, M., Ristić, M., Grujić-Jovanović, S., Vukojević, J., Marin, P.

(2009): Chemical composition and antifungal activity of Illicum verum and Eugenia

caryophyllata. essential oils. Chemistry of Natural Compounds, 45(2): 259-261. 1. Wang, G.W., Hu, W.T., Huang, B.-K., Qin, L.P. (2011): Illicium verum: A review on its

botany, traditional use, chemistry and pharmacology. Journal of Ethnopharmacology,

136(1): 10-20.

2. Min, Y., Zhang, W., Yang, J., Liu, W. (2011): Chemical composition and antimicrobial

activity of volatile components from wild Illicium wardii in China. Advanced Materials

Research, 239-242: 3367-3370.

3. Pohlit, A.M., Lopes, N.P., Gama, R.A., Tadei, W.P., De Andrade Neto, V.F. (2011): Patent

literature on mosquito repellent inventions which contain plant essential oils - A review

Open Access. Planta Medica, 77(6): 598-617.

4. Riaz, T., Abbasi, M.A., Umar, M.I., (...), Khan, K.M., Ahmad, V.U. (2011): Comparison of

antioxidant potential of volatile oils of Syzygium aromaticum and Illicium verum relative to

conventionally used standards. Journal of the Chemical Society of Pakistan, 33(2): 200-204.

5. Hmiri, S., Amrani, N., Rahouti, M. (2011): Détermination in vitro de l'activité antifongique

des vapeurs d'eugénol et d'huiles essentielles de Mentha pulegium L. et de Tanacetum

annuum L. vis-à-vis de trois champignons responsables de la pourriture des pommes en post-

récolte Open Access. Acta Botanica Gallica, 158(4): 609-616.

6. Kimbaris, A.C., Koliopoulos, G., Michaelakis, A., Konstantopoulou, M.A. (2012):

Bioactivity of Dianthus caryophyllus, Lepidium sativum, Pimpinella anisum, and Illicium

verum essential oils and their major components against the West Nile vector Culex

pipiens. Parasitology Research, 111(6): 2403-2410.

7. Mugnaini, L., Nardoni, S., Pinto, L., (...), Pisseri, F., Mancianti, F. (2012): In vitro and in

vivo antifungal activity of some essential oils against feline isolates of Microsporum

canis. Journal de Mycologie Medicale , 22(2): 179-184.

8. Nollet, L.M.L. (2012). Anise oil (Book Chapter).Handbook of Analysis of Active

Compounds in Functional Foods, pp. 641-650.

9. Huang, B., Liang, J., Wang, G., Qin, L. (2012): Comparison of the volatile components of

Illicium verum and I. lanceolatum from east China. Journal of Essential Oil-Bearing Plants,

15(3): 467-475.

10. Tan, K.H., Nishida, R. (2012). Methyl eugenol: Its occurrence, distribution, and role in

nature, especially in relation to insect behavior and pollination Open Access. Journal of

Insect Science, 12, 56.

11. Chouksey, D., Upmanyu, N., Pawar, R.S. (2013): Central nervous system activity of Illicium

verum fruit extracts Open Access. Asian Pacific Journal of Tropical Medicine, 6(11): 869-

875.

12. Domiciano, T.P., Dalalio, M.M.D.O., Silva, E.L., (...), Cuman, R.K.N., Bersani-Amado,

C.A. (2013): Inhibitory effect of anethole in nonimmune acute inflammation. Naunyn-

Schmiedeberg's Archives of Pharmacology, 386(4): 331-338.

13. Lim, T.K. (2013): Edible medicinal and non-medicinal plants. (Book) Volume 6, Fruits, pp.

1-606.

14. Rocha, L., Candido Tietbohl, L.A. (2015): Staranise (Illicium verum Hook) oils (Book

Chapter). Essential Oils in Food Preservation, Flavor and Safety, pp. 751-756.

15. Alhajj, M.S., Alhobaishi, M., Ger El Nabi, A.R., Al-Mufarrej, S.I. (2015): Immune

responsiveness and performance of broiler chickens fed a diet supplemented with high levels

of Chinese star anise fruit (Illicium verutn Hook, f). Journal of Animal and Veterinary

Advances, 14(2): 36-42.

16. Qinh, N.B., Dai, D.N., Than, B.V., (...), Hang, V.T.T., Ogunwande, I.A. )2016): Volatile

constituents of three Illicium plants., Records of Natural Products, 10(6): 806-811.

17. Aprotosoaie, A.C., Costache, I.-I., Miron, A. (2016): Anethole and its role in chronic

diseases. Advances in Experimental Medicine and Biology, 929: 247-267

18. Herman, A., Tambor, K., Herman, A. (2016): Linalool affects the antimicrobial efficacy of

essential oils. Current Microbiology, 72(2): 165-172.

19. Lee, H.W., Lee, S.G., Lee, H.S.(2016): Active component isolated from Eugenia

caryophyllata leaves and its structural analogues show insecticidal properties against

Pochazia shantungensis. Applied Biological Chemistry, 59(4): 609-614.

20. Cansian, R.L., Vanin, A.B., Orlando, T., (...), Paroul, N., Oliveira, D. (2017): Toxicity of

clove essential oil and its ester eugenyl acetate against Artemia salina. Open Access.

Brazilian Journal of Biology, 77(1): 155-161.

21. Kim, T.I., Shin, B., Kim, G.J., (...), Oh, D.C., Son, J.K. (2017): DNA topoisomerase

inhibitory activity of constituents from the fruits of illicium verum. Chemical and

Pharmaceutical Bulletin, 85(12): 1179-1184.

22. Zhang, H., Lim, C.L.F., Zaki, M., Jaenicke, S., Chuah, G.K. (2018): A dual-functional

catalyst for cascade meerwein–pondorf–verley reduction and dehydration of 4′-

methoxypropiophenone to anethole. ChemSusChem, 11(17): 3007-3017

23. Khorsandi, A., Ziaee, E., Shad, E., (...), Eskandari, M.H., Aminlari, M. (2018): Antibacterial

effect of essential oils against spoilage bacteria from vacuum-Packed cooked cured

sausages. Journal of Food Protection, 81(8): 1386-1393.

24. Ebani, V.V., Nardoni, S., Bertelloni, F., Pistelli, L., Mancianti, F. (2018): Antimicrobial

activity of five essential oils against bacteria and fungi responsible for urinary tract

infections. Open Access. , Molecules, 23(7): 1-12.

25. Geweely, N.S., Afifi, H.A., Ibrahim, D.M., Soliman, M.M. (2018): Efficacy of essential oils

on fungi isolated from archaeological objects in Saqqara Excavation,

Egypt. Geomicrobiology Journal. doi.org/10.1080/01490451.2018.1520938.

Glamočlija, J., Soković, M., Grubišić, D., Vukojević, J., Milenković, I., Ristić, M. (2009):

Antifungal activity of Critmum maritimum essential oil and its components against

mushroom pathogen Mycogone perniciosa. Chemistry of Natural Compounds, 45(1): 96-

97. 1. Regnier T., Combrinck, S. (2010): In vitro and in vivo screening of essential oils for the

control of wet bubble disease of Agaricus bisporus. Journal: South African Journal of

Botany, 76(4): 681-685.

2. Li, X.S., Hou, J. (2012): Extraction and antimicrobial activity of total flavones from

zanthoxylum nitidum. Applied Mechanics and Materials, 138-139,: 1190-1194.

3. Matan, N., Matan, N., Ketsa, S. (2013): Enhanced inhibition of Aspergillus nigeron sedge

(Lepironia articulata) treated with heat-cured lime oil. Journal: Journal of Applied

Microbiology, 115(2): 376-381.

4. Polatoğlu, K., Karakoç, T.C.,Yücel Yücel, Y., (...), Başer, K.H.C., Demirci, F. (2016):

Insecticidal activity of edible Crithmum maritimum L. essential oil against Coleopteran and

Lepidopteran insects. Industrial Crops and Products, 89: 383-389.

5. Pavela, R., Maggi, F.,Lupidi, G., (...), Bruno, M., Benelli, G. (2017): Efficacy of sea fennel

(Crithmum maritimum L., Apiaceae) essential oils against Culex quinquefasciatus Say and

Spodoptera littoralis (Boisd.). Industrial Crops and Products, 109: 603-610.

6. Potočnik, I., Stepanović, M. (2017): Biological control of fungal diseases of edible

mushrooms (Book Chapter). Biocontrol Agents: Types, Applications and Research Insights,

pp. 63-92.

7. Renna, M. (2018): Reviewing the prospects of sea fennel (Crithmum maritimum L.) as

emerging vegetable crop. Plants, 7(4), 92.

Simonić, J., Vukojević, J., Stajić, M., Glamočlija, J. (2009): Effect of different plant raw

materials on ligninolytic enzymes production by selected Ganoderma lucidum strains.

Matica Srpska Journal of Natural Sciences Novi Sad, 116: 289-295. 1. Rojas-Verde, G., Iracheta-Cárdenas, M.M., Galán-Wong, L.J., Arévalo-Niño, K. (2011):

Production of amylases, CMCases, xylanases and ligninolytic enzymes by white-rot fungi in

solid and liquid fermentation. In Microorganisms In Industry and Environment: From

Scientific and Industrial Research to Consumer Products, pp. 559-563.

2. Dhakar, K., Jain, R., Tamta, S., Pandey, A. (2014): Prolonged laccase production by a cold

and pH tolerant strain of Penicillium pinophilum (MCC 1049) isolated from a low

temperature environment. Enzyme Research doi: 10.1155/2014/120708.

3. Chidolue, E.F., Banboye, L.C., Ngozi, O.I., Chijioke, O.M. (2015): In silico investigations

on basal stem rot disease and biocontrol in elaeis guineensis. Computational Biology and

Bioinformatics, 3(5): 74-80.

4. Martani, F., Beltrametti, F., Porro, D., Branduardi, P., Lotti, M. (2017): The importance of

fermentative conditions for the biotechnological production of lignin modifying enzymes

from white-rot fungi. FEMS Microbiology Letters, 364(13): fnx134.

Ljaljević-Grbić, M. V., Vukojević, J. B. (2009): Role of fungi in biodeterioration process

of stone in historic buildings. Matica Srpska Journal of Natural Sciences Novi Sad,

(116), 245-251. 1. Sousa, V., Almeida, N., Meireles, I., de Brito, J. (2011): Anomalies in wall renders:

overview of the main causes of degradation. International Journal of Architectural

Heritage, 5(2): 198-218.

2. Dakal, T. C., Arora, P.K. (2012): Evaluation of potential of molecular and physical

techniques in studying biodeterioration. Reviews in Environmental Science and

Bio/Technology, 11(1): 71-104.

3. Rojas, T.I., Aira, M.J., Batista, A., Cruz, I.L., González, S. (2012): Fungal biodeterioration

in historic buildings of Havana (Cuba). Grana, 51(1): 44-51.

4. Machado, B.C.C.A. (2013): Caracterização das litologias e patologias da Sé de Lamego: um

estudo sobre alteração em monumentos graníticos. (Doctoral dissertation, Universidade de

Trás-os-Montes e Alto Douro).

5. Finne, A. (2013): Flora or Folly? Surveying the risks of plant-based art.The Conservation

Center, Institute of Fine Arts, New York University.

6. Plazanić, M. (2015): Priprava slojeva na bazi nanočestica srebra i TEOS-a (Doctoral

dissertation, University of Zagreb. Faculty of Chemical Engineering and Technology).

7. Ahmad, S., Viles, H.A. (2015): What controls algal greening of sandstone heritage? An

experimental approach (Doctoral dissertation, University of Oxford).

8. El-Derby, A.A., Mansour, M., Salem, M.Z. (2016): Investigation of the microbial

deterioration of sandstone from the Osirion’s Sarcophagus chamber affected by rising

ground level. Mediterranean Archaeology & Archaeometry, 16(1): 273-281.

9. Veloso, A.M., Borrego, S. (2016): Aerobiología y biodeterioro del género Aspergillus Link

en depósitos de tres instituciones patrimoniales cubanas. Boletín Micológico, 31(1)

DOI: 10.22370/bolmicol.2016.31.1.247-

10. Di Carlo, E., Lombardo, G., Barresi, G., Manachini, B., Corselli, G., Lo Giudice, S., Palla, F.

(2017): Biological macro and micro systems co-existing in the “Fountain of the two

dragons”, palermo. Conservation Science in Cultural Heritage, 15: 93-105.

11. Li, T., Hu, Y., Zhang, B., Yang, X. (2018): Role of fungi in the formation of patinas on

feilaifeng limestone, China. Microbial Ecology, 76(2): 352-361.

12. Sakr, A.A., Ghaly, M.F., Abdel-Haliem, M.E. (2018): Microbial kaolinization of granite

stones within the tomb of the King Oserkon II, Tanis, Lower Egypt. Periodico di

Mineralogia, 87(3): 245-253.

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moulds and aflatoxin M1 in milk. Matica Srpska Journal of Natural Sciences Novi Sad,

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