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Precision Crop protection In Bachelor Class Precision Farming 2012Rob kerkmeesterMeeting 1
Schedule Precision Crop Protect. 25-10-’12 meeting 1
Basis principles of Decision Support systems Crop Protection (DSS). What determines the risks?
2-11-’12 Sensor data and decision rules crop protection ccc, spray loaf killer, Phytophthora via NDVI
16-11-’12 Automation in spraying: strawberry, fruit,
Isafruit. Ruud. Disease detection robot. guest lecture Dacom or Corné Kempenaar
Program meeting 11. Introduction2. DSS: what do you want to know?3. Old example: Epipre4. What can we observe on a crop?5. What damage do diseases cause?6. What are effects of pests and diseases
on plant physiological functions?7. What can be observed and how?8. Conclusions for future??9. Assignment
Decision Support System; basic principles Brainstorm (3 pp, 10 minutes); report on
flap What information could a DSS need/want?
Why is this information useful? Brief presentation + discussion (10
minutes)
What do I think a DSS can use? Weather:
Present condition + leaf & soil temp Past weather condition Weather prediction
Environment of the crop: windshields, biodiversity, other susceptible crops
Race of crop Soil conditions (fertility, org. matter, texture,…) Fertilization Crop protection measures (preventive, curative)
Example Epipre Developed in 1980-90 at WUR (Zadoks, Rijsdijk)
±10 pH.D, >100 students: very large project Winter wheat: diseases of leaves and aphids Goal: accurate prediction of damage and loss Advice based on economic / action threshold Based on crop observations, not on weather Models based on race, soil, previous action Outcome: growers updated their knowledge What is different in DSS? 2 components added:
Weather! Predicting risks Better observations using Precision farming
What do we need in DSS for accurate advice?
Temperature: fungus: spore release; ≠ germination Example Apple scab: ascospores develop
according to cumulative temperature, when ripened: release at adequate temperature; conidia need different temperature and r.h.
Moisture: demands of fungus for r.h., leaf wetness duration
Accurate weather predictions for crop (detailed!)
Soil and crop health condition Natural resistance factor
What can we observe at a crop?Naked eye: Growth stage; general appearance (+ sensing?) Symptoms, signs (+ close sensing; interpretation?)Weather: measuring: Temperature Humidity Chemical analysis: Cell content / soil Near / close sensing: Color: light reflection (different spectra) Temperature (i.r. spectrum) Density (LAI/NDVI) …?
Pictures: what types of damage to host plants are caused here?
Less chlorophyll; mosaic virus
Fusarium tomato: wilting; Water translocation
Dutch Elm Disease
wilting
Beet cyst nematode
Damage to roots causes smaller plant
Lesions (spots); rust
Lesions; blotches, spots
Powdery mildew Phytophthora, downy mildew
Effects of pests and diseases on plant physiological functions
1. Growth reduction2. Less photosynthesis3. Water translocation4. Evaporation < or >5. Respiration >6. Chlorophyll <7. Lesions 8. Change in colour9. Change in leaf shape
1. DNVI2. See equipment has3. ? Reflection?4. Temp., close sensing?5. ?6. Reflection: close sens.7. Close sensing?? 8. Reflection9. NDVI?
Conclusion Only at the start of great possibilities Recognition of (more) weeds Adapting herbicide spraying to weeds
(MLHD) Adapting spraying to crop density (NDVI) Assessing crop vitality Signal of oncoming disease? Warning of deficiency? Warning of disease symptoms??
Assignment what diseases do you know that cause
the physiological effects (slide 8)? Give examples
What diseases can cause characteristic symptoms in an early stage, so an alert can be given in time?
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