Agricultural systems research: An introduction L.E. Drinkwater Cornell University.
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Transcript of Agricultural systems research: An introduction L.E. Drinkwater Cornell University.
![Page 1: Agricultural systems research: An introduction L.E. Drinkwater Cornell University.](https://reader035.fdocuments.net/reader035/viewer/2022062314/56649e665503460f94b60528/html5/thumbnails/1.jpg)
Agricultural systems research: An introduction
L.E. Drinkwater
Cornell University
![Page 2: Agricultural systems research: An introduction L.E. Drinkwater Cornell University.](https://reader035.fdocuments.net/reader035/viewer/2022062314/56649e665503460f94b60528/html5/thumbnails/2.jpg)
Overview• Strengths of systems thinking
• Some useful concepts
• Systems thinking in management and problem solving
• One key tool: concept mapping
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Systems approaches are well-suited to support the transition to sustainable agriculture
• Allows for consideration of multiple goals
• Combine expertise from multiple disciplines and functions
• Holistic systems approach can cope with interactions and harness reinforcing feedbacks
• Learning from innovative farmers
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Why use system based approaches?
• We need to understand mechanisms regulating ecological processes within farms/fields in order to optimize ecological management
• Assess agroecosystem-scale function (consequences of management systems beyond yield)
• Identify trade-offs and synergies among management options or enterprises
• New discoveries and novel solutions
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Useful concepts from ecology for organizing research questions
• Ecosystems are composed of nested sub-systems
• Use of space and time to define processes
• Open vs closed systems
• Structure determines function
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OrganismPopulation
Community
Ecosystem
The concept of nested hierarchies applied to weed management
Generations per year
Seed dormancy regulation
Pathogens or herbivores
Nutrient cycling growth
Successful ecological weed control requires integrating knowledge across all these levels—i.e. “Many little hammers” (Liebmann and Gallandt 1997)
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Ecosystem Services The benefits people obtain from ecosystems
Millennium Ecosystem Assessment- www.millenniumassessment.org
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Environmental, biotic and management characteristics drive ecosystem processes
Millennium Ecosystem Assessment- www.millenniumassessment.org
AGROECOSYSTEM STRUCTURE
Physical environment- Climate, soil type and typology, time
Biotic components-Biodiversity, community composition, population assemblages
Management-Plant species in space and time, tillage, inputs, harvest regime, spatial scale of fields, enterprise diversity
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Systems thinking in agricultural management and research
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Organic agriculture: Example of a systems-based management approach
• Agroecosystem components and management practices serve multiple functions.
– Cover crops fix nitrogen, build SOM and soil structure, scavenge nutrients, suppress weeds, reduce erosion, provide habitat for
beneficial arthropods.
• Management strategies rely on many distinct practices/processes– “many little hammers” (Liebman and Gallandt. 1997).
– Weed management relies on rotation, strategic use of tillage, weed suppressive cover crops, seed bed depletion via management and food web based mechanisms).
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Agroecosystems experiment1. Current farmer systems2. Innovative farmer systems3. New collaboratively-
designed systemsSatellite trial 1factorial design
Satellite trial 2
Interdisciplinary team: farmers, researchers, & extension educators
Reductionist experiments(microplots, laboratory studies)
Farmerknowledge
Scientificunderstanding
Conceptual model
Goals
Agroecosystems experiment1. Current farmer systems2. Innovative farmer systems3. New collaboratively-
designed systemsSatellite trial 1factorial design
Satellite trial 2
Interdisciplinary team: farmers, researchers, & extension educators
Interdisciplinary team: farmers, researchers, & extension educators
Reductionist experiments(microplots, laboratory studies)
Farmerknowledge
Scientificunderstanding
Conceptual model
Goals
Experimental design: systems + reductionist experimentation
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Soybean aphid
Soybean
Problem: Insect pest
• Factorial experimentation• Test specific management practices in small plots• Series of short-term experiments
Traditional Approach: How to manage soybean aphid?
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Soybean aphid
Soybean
Problem: Insect pest
• Interdisciplinary team• Define the system, i.e. concept mapping, knowledge gaps• Design appropriate research plan
Systems Approach: What interactions within the agroecosystem impact soybean aphid?
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Bradyrhizobia
Soybean
Syrphid flies
Soybean aphid
Asian ladybug
Golden alexanders
Common boneset
Yellow coneflower
Woody riparian buffer
Soil organic matter
Yarrow
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Concept mapping is an essential tool in systems-based, collaborative research
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A conceptual model should:• Describe a system that encompasses the research
questions but has clear boundaries
• Explicitly define the components of the system and how they interact with one another
• Provide a logical framework for the research questions to be addressed
• Be developed and agreed upon by all collaborators. Each person should be able to find their particular subsystem or area of expertise in the model
• Be simple enough to be understood by reviewers, stakeholders, potential funders
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Summary• Systems thinking requires a paradigm shift, a re-
assessment of the way we view agroecosystems
• There are many resources to draw from in the ecology literature, sustainability science, business world
• Planning benefits from structure: Follow a logical progression, set boundaries, use concept mapping
• Need to apply a consistent framework to develop general principles and agroecosystem assessment methods
THANK-YOU!
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Interactions across spatial scales: The case of rock P management
Addition of soil amendments
Selection of plant species
Plant productivity, root exudates
Inoculation w/ Psolubilizing microbes
Background ecosystem characteristicsClimate and soil type Field-scale
Plant
Soil microsites
Bacteria, fungi
Solubilization of P