National Center for Ecological Analysis and Synthesis - …
The National Science Foundation's Long-Term Ecological Research (LTER) program was established in 1980 to study ecological processes operating on decadal-to-century time scales. The program now includes a network of 28 diverse research programs and engages over 2000 researchers from multiple disciplines. Drawing on sustained observation, experiments and modeling, LTER research creates new knowledge about how ecosystems function and informs many aspects of resource management. The Long-Term Ecological Research Network Communications Office (LTER-NCO) is located at UCSB's National Center for Ecological Analysis and Synthesis (NCEAS) and serves as a central information hub and supports cross-site collaboration activities for the LTER Network.
UCSB’s National Center for Ecological Analysis and Synthesis ..
The National Center for Ecological Analysis and Synthesis (NCEAS), located in the heart of downtown Santa Barbara, brings together scientists working in a range of disciplines to address critical ecological questions using existing data and information. The foundation of NCEAS’ unique approach is to synthesize and examine the vast array of existing ecological and related information in order to make important scientific advances and help apply these findings to management, policy and environmental conservation. The Center facilitates this research by hosting and supporting working groups, postdoctoral associates, sabbatical fellows, and distributed graduate seminars.
This program is the primary mechanism we have for engaging new WSU faculty in sustainable and organic agricultural research. This round we funded 7 projects (28% of proposed projects) covering berries, grapes, apples, vegetables, livestock and grains. The 7 projects represented 9 faculty investigators new to the BIOAg Program, representing Crop & Soil Sciences, Horticulture, Biological Systems Engineering, and Entomology. All 7 funded projects have a relationship with the priority area of improving soil quality. A list of funded projects is in the table below, and you can read more details on each of the projects here: .
The National Center for Ecological..
Few challenges require synthesis as urgently as global environmental change, which is proceeding at an unprecedented scope, scale and speed. The resulting challenges surpass, in their scale and complexity, any that scientists have grappled with to date. Biological adaptation lies at the heart of global environmental change, as the ways in which life on Earth responds to, and subsequently drives, geophysical events dictate the trajectories and the dynamics of global change. At the same time, human decisions and behavior increasingly complicate and accelerate the rate of environmental change. The shift from viewing people as an external impact to integral components of ecosystems requires inclusion of social as well as ecological processes in feedback loops. Because of its complexity, environmental problem solving requires synthesis across the biological sciences, computational sciences, geosciences, social sciences, engineering, and educational research to transform our understanding of ecological systems - both terrestrial and oceanic - and the practice of ecological research and ecological education. Synthesis has great potential to produce novel insights at a faster pace, resulting in broader perspectives and solutions, than more traditional approaches to ecological problems.
National Center for Ecological Analysis and Synthesis - USDA
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The new center for environmental synthesis will be international in scope, funded at a level that allows researchers from around the world to participate in synthesis using diverse, leading edge methods that will address issues and problems at a global scale. NSF expects this center to interact with other synthesis centers and activities, environmental observatory networks (e.g., National Ecological Observatory Network (NEON), Ocean Observatories Initiative (OOI); PAGES (Past Global Changes); GLOBEC (Global Ocean Ecosystem Dynamics)), and the Long Term Ecological Research (LTER) network, particularly in the areas of developing shared cyberinfrastructure and bioinformatics tools. The successful center will also collaborate with centers and organizations that use effective, innovative methods of GK-16 and informal science education.