Productive and Ecological Agriculture. Strategy, organization and needs of the InVivo network

Productive and Ecological Agriculture Strategy, organization and needs of the InVivo network

Plan 1. Who are we 2. Network organization 3. Productive agriculture: main items 4. Ecological agriculture: main items 5. Conclusion

InVivo Group National union of cooperatives with 279 members Purchasing, sales and services center 4 activity areas: THE ALLIANCE Seeds & Agricultural Supplies OF ANIMAL Animal Nutrition and Health AND Storage and Grain Trading PLANT Distribution Turnover: 5,086 billion Workforce: 6,114 France s No 1 group of agricultural cooperative

InVivo s missions Design, develop and pool techniques, products, tools and services enabling cooperatives and farmers to produce more and better Generate visible differentiation and a tangible economic return for members

InVivo farm supplying network 60 % of the French market on pesticides, fertilizers and seeds Advices and products 2 073 field advisers agronomists The 79 cooperatives of the InVivo network for agricultural input

Plan 1. Who are we 2. Network organization 3. Productive agriculture: main items 4. Ecological agriculture: main items 5. Conclusion

Know how acquiring network Aim: design the most efficient agro-management methods for each type of agronomic situation in France Field trial network: each year 554 Field crops trials 60 Vineyards trials 33 Vegetables Production trials 21 Orchards trials Local field agro-economic surveys: Cropping system coherence Hierarchization of limiting factors and techniques Yield and economic impact of agronomic problems

European Alliance Sharing field experience on: agronomy, environment, economic results

Advising network Epiclès, Phytnès Ramsès II Sépale +, OSMOSE AgroEDI, Fertilization and protection planning Plant protection and fertilization designing systems Complying with regulation, budget Economic simulation models: weeds / diseases related losses Piloting the timing of agro-management operations Epidemiologic / plant development models Optimum date of spraying or suppression Optimum rate and date of nitrogen application Advices and services management Central and deported data bases; Traceability of advices and actual operations Field advisers for agro-management and quality control system Crops and Field data bases DAPLOS data Geo referenced datas Direct information transfer with other information systems

InVivo network advices : area evolution (1000 ha) 2200 2000 1800 1600 1400 1200 1000 800 600 400 200 2000 / 01 2001 / 02 2002 / 03 2003 / 04 2004 / 2005 / 05 06 2006 / 07 2007 / 08 2008 / 09 Evolution des surfaces : + 195 000 ha par an 2009 / 10

Nitrogen fertilization advising DATA Soil type Crop rotation Previous crop Nitrogen balance Organic fertilization Yield forecast Soil NO 3 in spring Estimated fertilization program EPICLES Balance method N application monitoring Farmstar satellites RAMSES plant [NO 3 ] leaf reflectance / transmittance

Nitrogen fertilization advising DATA Soil type Crop rotation Previous crop Nitrogen balance Organic fertilization Yield forecast Soil NO 3 in spring Estimated fertilization program EPICLES Balance method N application monitoring Farmstar satellites RAMSES plant [NO 3 ] leaf reflectance / transmittance

Nitrogen Mineralization of Soils Mineralised Azote minéralisé Nitrogen (ppm) (ppm) 300 250 200 150 100 50 0 1. Nitrogen mineralization potential of soils (NMPS) Argile sans Soilapport Sample organique n 32986 (n 32986) 0 20 40 60 Nombre Weeks de semaine Control Control yield yield 0-0 nitrogen (q/ha) (q/ha) Control yield - 0 (q/ha) Control yield 0 nitrogen (q/ha) 80 70 60 50 40 30 20 10 0 140 120 100 80 60 40 20 0 2. NMPS and 0 N fertilization yield Wheat - 114 field tests (France) 40 49 Corn Corn 26 26 field field tests tests (Lot-et-Garonne) (Lot-et-Garonne) 80,2 56,5 96,4 120,4 < 14 14 à 19 20 à 24 > 24 PMN cm NMPS 0-30 cm 56,5 68,2 < < 12,9 13 13 à à 18,9 19 19 à 23,9 > 24 NMPS PMN 0-30 0-30 cm cm 51,9 80,2 96,4 120,4 < 14 14 à 19 20 à 24 > 24

Nitrogen fertilization advising Standard days of mineralization S. RECOUS Estimated soils NO3 at the End of Winter Nitrogen mineralization of soils T. DARBIN (InVivo) S. HOUOT S. MENASSERRI (INAPG) Nitrogen Mineralization Potential of Soils (NMPS) J.M. BREMNER Estimated nitrogen mineralization during cropping period

Nitrogen Mineralization of Soils Inter Multiannual annual follow-up NMPS of the PMN variations 6 exploitations (Terrena (Terrena,49) 89) 25 Easier to develop method (low implementing costs) stable value during 4 years Easy to manage : sample in 0-30 cm layer no strict storage conditions of soil samples / direct NO 3 quantification sampling : 4 months, august december PM N 0-30 cm (m g /kg) 20 15 10 5 0 1993 1994 1995 1996 1997 Year of measure Brain sur L'Authion (49) Le Lion d'angers (49) Rou Marson (49) La Chapelle Rousselin (49) Assais (79) Seiches sur Loire (49)

Nitrogen fertilization advising DATA Soil type Crop rotation Previous crop Nitrogen balance Organic fertilization Yield forecast Soil NO 3 in spring Estimated fertilization program EPICLES Balance method Nitrogen Mineralization of Soils (NMPS) N application monitoring Farmstar satellites RAMSES plant [NO 3 ] leaf reflectance / transmittance 66 % 77 % Optimum rate on wheat

Plan 1. Who are we 2. Network organization 3. Productive agriculture: main items 4. Ecological agriculture: main items 5. Conclusion

Productive agriculture: main results Inputs : 38 % of global costs for field crops Winter wheat 600 17,5 528 20 500 Input expenses ( /ha) 400 300 200 11,1 301 319,7 10,2 334 10,5 317,2 336,5 10,1 10,1 8,2 9,2 322,7 334,7 322 324 10,3 8,4 8,35 14,2 407 10 15 10 5 Yield (q/ha) 100 0 1997 1998 1999 2000 2001 2002 2003 2004 2005 2006 2007 2008 2009 Year 0 Input expenses ( /ha) Yield (q/ha)

Yield is not explained by the amount of input (Wheat - Cher 2004) Average input cost : 314 /ha 90 80 Yield q/ha 70 60 50 Yield input correlation 2003 to 2007 0 < r 2 < 0.06 40 30 170 210 250 290 330 370 410 450 490 input /ha Seeds, protection, fertilization

Agro ecological approach Wheat - Cher 2004 Mean inputs : 314 /ha 90 80 70 Yield q/ha 60 50 40 Describe and understand the agro ecological conditions explaining the development of the pests and weeds 30 170 210 250 290 330 370 410 450 490 inputs /ha Seeds, protection, fertilization

Plan 1. Who are we 2. Network organization 3. Productive agriculture: main items 4. Ecological agriculture: main items 5. Conclusion

2015 ground water quality foresight 2012 500 action plans on priority grenelle catchment areas High risks Doubt Good quality pressure management: pesticides prohibition less fertilisers producing rights?

Environment performance strategy Individual performance + collective consolidation Measure, Manage, Value 100 90 Nitrogen balance Nitrogen balance kg:ha 80 70 60 50 40 30 20 10 0 2003 2004 2005 2006 2007 2008 Year French OECD reference Sustainable agriculture club 450 000 ha in 2009

Catchment water quality Nitrate content of three water tables Similar Fertilization practices (EPICLES) Water age at the catchment 8 12 years 8 12 months

Nitrogen balance Nitrogen fertilization : Maximum rate / ha Nitrogen balance Producing rights limitation Soil NO 3 at begining of winter [NO 3 ] in leaching water «Production» of Drinking water Payment for environmental services

Measure, Manage, Value Agronomy Environmental performance Advising Softwares advices and actual operations data bases Polluting emission Nitrates Pesticides Economy Energy saving certificates

Individual environmental performances ADVISING SYSTEM FERTILIZATION PLANT PROTECTION PLANT PROTECTION + FOOTPRINT SPECIFIC ACQUISITION EXTERNAL DATA BASES WATER Nitrogen balance Phosphorus balance Soil overlaying Leaching water [NO3] Treatment Frequency Index Soil overlaying Surface Water emissions Underground water emissions pinpoint water pollution water stocks % < [NO3] threshold water stocks % < [pesticides] threshold Standard Global Biological Index CLIMATE Green House Gazes ENERGY energy balance BIO DIVERSITY Treatment Frequency Index Crops diversity surface water emission Dedicated Biodiversity area STOC (birds) Standard Global Biological Index Soil overlaying STERF (insects) SOILS Organic % ph HEALTH Individual Protection equipments % food < residues thresholds water stocks % < [pesticides] t.

Hydraulic vulnerability Transfer time between rain on fields and catchment points

Field Water catchment collect area Surface Transfer Footprint FS Pesticides treatment Footprint CRS Amount of Pesticides in the river Underground transfer Phytnès Footprint FS Watermodel Amount of Pesticides in the water table

Our aims To find the most efficient combinations between natural/ecological processes and artificial/mechanical/chemical means To improve the input efficiency and to reduce the losses and impacts of farming practices on the ecosystems To provide farmers with effective, reliable and timely information on their crop requirements, pests dynamics, environmental performance and risks To challenge the increase of the farms size

Our needs 1. Increase yield and quality 2. Improve Agromanagement modelisation 3. Crops / crop operations innovations 4. Environmental farming

Our needs 1. Increase yield and quality Which changes in crop management? (i.e. Wheat: toward wheat 13t/ha ; Corn 18-20t/ha?) Better understanding on production / accumulation of matter in the grain when and how is the yield built? (i.e. oil seed rape)

Our needs 2. Improve agro management models To increase the liability and economic efficiency of our advices, and reduce their cost Scientific knowledge of the pathogens, weeds, systematic, ecophysiology, Resistance understanding and quantification through models, mode of action of the pesticides families New concepts on permanent agronomic or environmental characteristics of fields (i.e. NMPS) Improve the efficiency ratio (product used by plants / product lost in environment) of inputs (fertilizers N, P, pesticides) Quantification (models) of all pests (weeds, diseases, insects ) dynamics and agro management conditions, basis for predictive management of crop operation Models based on data already registered by farmers

Our needs 3. Innovations new crop operations and agro management consequences (i.e. no soil operation and weeds or fertilization management, new pests) Machinery to make easier changing products or rates between fields How to increase the yield and reduce the nitrogen or phosphorus inputs? Efficient alternatives to chemical fertilizers? New, traits, cultivars, crops adapted to French conditions or to lower agronomic potentials Improve leguminous efficiency (feed qualities, yield, diseases )

Our needs 4. Environment Alternative products and method of plant plant protection Improve and quantify (models) the environmental impact of crop operation and agro management Loss in water pollution (pesticides and nitrogen quantities) Biodiversity (quantification and management) Toward environmental farming And environmental services payments

Conclusion Because of the food and social needs, high productivity and ecological performances must be matched at the same time This agriculture will be based on Agronomy and ecological know how Go ahead business capacity and environmental responsibility of the farmers Thank you for your attention