175-9Multifunctional Management of Integrated Crop-Livestock Systems.
See more from this Division: Special SessionsSee more from this Session: Integrating Livestock Into Cropping Systems: Ecosystem Responses From Long-Term Studies
Tuesday, October 23, 2012: 2:15 PM
Duke Energy Convention Center, Room 262, Level 2
The demand for provisioning ecosystem services (e.g., food, feed, fiber, fuel) from agricultural land is great and increasing. At the same time, society is expecting agriculture to provide regulating (e.g., pollination), cultural (e.g., recreation), and supporting (e.g., water cycling) services. Meeting the demands for multiple services requires a multifunctional management approach. For example, diversifying agricultural systems via increasing plant species in pastureland and combining several crop species into logical sequences and dynamic rotations is a multifunctional approach that can enhance production (provisioning service), the use of natural resources (regulating, supporting, and cultural services), and in some instances improve economic returns. Much of the research on potential benefits of diversification, however, is based on studies focused on a single ecosystem service. There is a great need for research on comparing various systems and measuring multiple ecosystem services in multiple environments. This will enable analyses of potential tradeoffs among services and will better inform management and policy guidelines. To this end, the USDA-ARS is coordinating 10 of its research watersheds and rangelands, including the Northern Great Plains Research Laboratory at Mandan, ND, as a Long-Term Agro-ecosystem Research Network. These locations will engage in synergistic, network-wide research to address questions related to the condition, trends, and sustainability of agricultural systems and resources on large scales of space and time.
See more from this Division: Special SessionsSee more from this Session: Integrating Livestock Into Cropping Systems: Ecosystem Responses From Long-Term Studies