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Organization Adams State University
Join us for a learning experience that links education to community, fosters a sense of belonging, and celebrates diverse cultural and social perspectives. Adams State University’s driving purpose is to provide equitable access to education for all.
Located in LP Members / Organizations Search
Organization Harvard University
Located in LP Members / Organizations Search
Organization Cleveland Museum of Natural History
We make science relatable by cultivating your curiosity. When you visit the Museum, you’ll have the opportunity to delve deep into the past in our dinosaur hall, discover the outer reaches of the Universe through our astronomy programs, and experience natural wonders in outdoor galleries. Traveling exhibits bring the world to Cleveland with an ever-changing variety of new subjects to explore.
Located in LP Members / Organizations Search
Organization object code University at Buffalo
The University at Buffalo, New York State’s flagship, is consistently recognized as one of the world's most exceptional, most affordable universities, making it a top choice for students and faculty around the globe.
Located in LP Members / Organizations Search
Introduction to Diversity, Equity, and Inclusion in Conservation
Diversity, equity, and inclusion are essential to achieving our mission of protecting essential ecosystem services, creating sustainable working lands, and enhancing biodiversity. This course is an introduction to the podcast "Ted Takeaways" and how we can work together to address landscape-level issues and promote sustainable working lands with an eye towards equity and inclusion.
Located in Learning & Tech Transfer / Training Resources / Inbox
Black Urban Growers
Black Urban Growers (BUGs) is committed to building networks and community support for growers in both urban and rural settings. Through education and advocacy around food and farm issues, we nurture collective Black leadership to support Black agrarianism and reimagine Black futures. Based in New York City, BUGs reach is national through its annual conference.
Located in Community Hub / Tribal and community-based organizations
File PDF document Conserving the Stage: Climate Change and the Geophysical Underpinnings of Species Diversity
Conservationists have proposed methods for adapting to climate change that assume species distributions are primarily explained by climate variables. The key idea is to use the understanding of species-climate relationships to map corridors and to identify regions of faunal stability or high species turnover. An alternative approach is to adopt an evolutionary timescale and ask ultimately what factors control total diversity, so that over the long run the major drivers of total species richness can be protected. Within a single climatic region, the temperate area encompassing all of the Northeastern U.S. and Maritime Canada, we hypothesized that geologic factors may take precedence over climate in explaining diversity patterns. If geophysical diversity does drive regional diversity, then conserving geophysical settings may offer an approach to conservation that protects diversity under both current and future climates. Here we tested how well geology predicts the species diversity of 14 US states and three Canadian provinces, using a comprehensive new spatial dataset. Results of linear regressions of species diversity on all possible combinations of 23 geophysical and climatic variables indicated that four geophysical factors; the number of geological classes, latitude, elevation range and the amount of calcareous bedrock, predicted species diversity with certainty (adj. R2 = 0.94). To confirm the species-geology relationships we ran an independent test using 18,700 location points for 885 rare species and found that 40% of the species were restricted to a single geology. Moreover, each geology class supported 5–95 endemic species and chi-square tests confirmed that calcareous bedrock and extreme elevations had significantly more rare species than expected by chance (P,0.0001), strongly corroborating the regression model. Our results suggest that protecting geophysical settings will conserve the stage for current and future biodiversity and may be a robust alternative to species-level predictions.
Located in Resources / Climate Science Documents
File PDF document ‘As Earth’s testimonies tell’: wilderness conservation in a changing world
Too often, wilderness conservation ignores a temporal perspective greater than the past 50 years, yet a long-term perspective (centuries to millennia) reveals the dynamic nature of many ecosystems. Analysis of fossil pollen, charcoal and stable isotopes, combined with historical analyses and archaeology can reveal how ongoing interactions between climatic change, human activities and other disturbances have shaped today’s landscapes over thousands of years. This interdisciplinary approach can inform wilderness conservation and also contribute to interpreting current trends and predicting how ecosystems might respond to future climate change. In this paper, we review literature that reveals how increasing collaboration among palaeoecologists, archaeologists, historians, anthropologists and ecologists is improving understanding of ecological complexity. Drawing on case studies from forested and non-forested ecosystems in Europe, the Americas, Africa and Australia, we discuss how this integrated approach can inform wilderness conservation and ecosystem management.
Located in Resources / Climate Science Documents
File PDF document Animal Versus Wind Dispersal and the Robustness of Tree Species to Deforestation
Studies suggest that populations of different species do not decline equally after habitat loss. However, empirical tests have been confined to fine spatiotemporal scales and have rarely included plants. Using data from 89,365 forest survey plots covering peninsular Spain, we explored, for each of 34 common tree species, the relationship between probability of occurrence and the local cover of remaining forest. Twenty-four species showed a significant negative response to forest loss, so that decreased forest cover had a negative effect on tree diversity, but the responses of individual species were highly variable. Animal-dispersed species were less vulnerable to forest loss, with six showing positive responses to decreased forest cover. The results imply that plant-animal interactions help prevent the collapse of forest communities that suffer habitat destruction.
Located in Resources / Climate Science Documents
File PDF document Ecologists Report Huge Storm Losses in China’s Forests
From delicate orchids and magnolias to rare Chinese yews and Kwangtung pines, the flora of Guangdong Nanling National Nature Reserve is considered so precious that ecologists call the reserve “a treasure trove of species.” But winter storms have reduced the biological hot spot to a splintered ruin. Snow, sleet, and ice laid waste to 90% of the 58,000- hectare reserve’s forests, says He Kejun, director of Guangdong Forestry
Located in Resources / Climate Science Documents