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Project Troff document The Literature Gateway Project
Forest management affects wildlife habitat by altering the structure and composition of vegetation communities. Every wildlife species uses a specific set of resources associated with different species and ages of forest trees (e.g., nesting cavities, den sites, acorn crops, fruit resources) to survive and reproduce. Forest managers, wildlife conservation groups, policy makers, and other stakeholders often need to review the literature on forest bird-vegetation relationships to inform decisions on natural resource management or ecosystem restoration. The literature gateway facilitates the exploration of this literature, helping users find references on a diverse range of management-relevant topics that have been compiled by subject experts based on searches of >60 different sources spanning the past 50+ years.
Located in Projects
Product Troff document The Literature Gateway Tool
This tool allows users to search for literature on bird species-vegetation relationships in eastern and boreal forests of North America.
Located in Resources / Products
File PDF document The material footprint of nations
Metrics on resource productivity currently used by governments suggest that some developed countries have increased the use of natural resources at a slower rate than economic growth (relative decoupling) or have even managed to use fewer resources over time (absolute decoupling). Using the material footprint (MF), a consumption-based indicator of resource use, we find the contrary: Achievements in decoupling in advanced economies are smaller than reported or even nonexistent. We present a time series analysis of the MF of 186 countries and identify material flows associated with global production and consumption networks in unprecedented specificity. By calculating raw material equivalents of international trade, we demonstrate that countries’ use of nondomestic resources is, on average, about threefold larger than the physical quantity of traded goods. As wealth grows, countries tend to reduce their domestic portion of materials extraction through international trade, whereas the overall mass of material consumption generally increases. With every 10% increase in gross domestic product, the average national MF increases by 6%. Our findings call into question the sole use of current resource productivity indicators in policy making and suggest the necessity of an additional focus on consumption- based accounting for natural resource use. raw material consumption | multiregion input–output analysis | sustainable resource management
Located in Resources / Climate Science Documents
File PDF document The millennial atmospheric lifetime of anthropogenic CO2
The notion is pervasive in the climate science community and in the public at large that the climate impacts of fossil fuel CO2 release will only persist for a few centuries. This conclusion has no basis in theory or models of the atmosphere/ocean carbon cycle, which we review here. The largest fraction of the CO2 recovery will take place on time scales of centuries, as CO2 invades the ocean, but a significant fraction of the fossil fuel CO2, ranging in published models in the literature from 20–60%, remains airborne for a thousand years or longer. Ultimate recovery takes place on time scales of hundreds of thousands of years, a geologic longevity typically associated in public perceptions with nuclear waste. The glacial/interglacial climate cycles demonstrate that ice sheets and sea level respond dramatically to millennial-timescale changes in climate forcing. There are also potential positive feedbacks in the carbon cycle, including methane hydrates in the ocean, and peat frozen in permafrost, that are most sensitive to the long tail of the fossil fuel CO2 in the atmosphere.
Located in Resources / Climate Science Documents
File PDF document The movement ecology and dynamics of plant communities in fragmented landscapes
A conceptual model of movement ecology has recently been advanced to explain all movement by considering the interaction of four elements: internal state, motion capacity, navigation capacities, and external factors. We modified this framework to generate predictions for species richness dynamics of fragmented plant communities and tested them in experimental landscapes across a 7-year time series. We found that two external factors, dispersal vectors and habitat features, affected species coloniza- tion and recolonization in habitat fragments and their effects varied and depended on motion capacity. Bird-dispersed species richness showed connectivity effects that reached an asymptote over time, but no edge effects, whereas wind-dispersed species richness showed steadily accumulating edge and connectivity effects, with no indication of an asymptote. Unassisted species also showed increasing differences caused by connectivity over time, whereas edges had no effect. Our limited use of proxies for movement ecology (e.g., dispersal mode as a proxy for motion capacity) resulted in moderate predictive power for communities and, in some cases, highlighted the importance of a more complete understanding of movement ecology for predicting how landscape conservation actions affect plant community dynamics. corridors 􏰚 dispersal 􏰚 diversity 􏰚 life-history traits 􏰚 species richness
Located in Resources / Climate Science Documents
File PDF document The Myth of Smart Growth
“Smart growth” is an urban growth management strategy that applies planning and design principles intended to mitigate the impacts of continued growth. If properly applied, these principles represent a positive contribution to new urban development. However, the rhetoric of “smart growth” is that population levels and growth rates are not the problem; it’s merely a matter of how we grow. According to the “smart growth” program, if we are less wasteful and more efficient in our urban growth, we can keep growing and everything will work out fine. The “smart growth” approach is fundamentally pro-growth and does not envision an end to growth or a need to end growth. “Smart growth” is cast as a comprehensive solution, whereas it is merely a potential means of modestly reducing the environmental, social, and economic impacts of continued growth while failing to address its inevitable consequences. The “smart growth” formula has been used to discount and transform legitimate public concerns about the amount and pace of growth into a discussion about how we should best continue growing.
Located in Resources / Climate Science Documents
The Nature Conservancy-PERSPECTIVES: Restorative Aquaculture for Nature and Communities
KEY TAKEAWAYS: There is a pressing need to provide food for people within planetary limits—including new approaches that actively restore ecosystem health; A body of research conducted by TNC scientists and partners demonstrates that aquaculture can help restore ocean health, as well as support economic development and food production in coastal communities worldwide—if the right practices are deployed in the right places; A set of six clear principles and implementation roadmaps—agreed upon by scientists from leading organizations across the globe—now provides guidance to help industries, governments and communities develop aquaculture in a way that actually benefits nature; Ecological and economic studies show these benefits can be significant, and spatial analysis has identified the regions around the world most suited for restorative aquaculture. Taken together, this body of information shows how and where to get the most benefit from restorative aquaculture.
Located in News & Events
File PDF document The New Era Of Climate Risk Disclosure
In February of this year, the U.S. Securities and Exchange Commission made clear in no uncertain terms that corporations have a duty to disclose risks faced through poten- tial climate change. Yet many boards remain unaware of what constitutes a “material” climate risk, or just how broad the scope and potential impact truly are.
Located in Resources / Climate Science Documents
File PDF document The Next Dust Bowl
Drought is the most pressing problem caused by climate change. It receives too little attention, says Joseph Romm.
Located in Resources / Climate Science Documents
File PDF document The outcome is in the assumptions: analyzing the effects on atmospheric CO2 levels of increased use of bioenergy from forest biomass
Recently, several studies have quantified the effects on atmospheric CO2 concentration of an increased harvest level in forests. Although these studies agreed in their estimates of forest productivity, their conclusions were contradictory. This study tested the effect of four assumptions by which those papers differed. These assump- tions regard (1) whether a single or a set of repeated harvests were considered, (2) at what stage in stand growth harvest takes place, (3) how the baseline is constructed, and (4) whether a carbon-cycle model is applied. A main finding was that current and future increase in the use of bioenergy should be studied considering a series of repeated harvests. Moreover, the time of harvest should be determined based on economical principles, thus taking place before stand growth culminates, which has implications for the design of the baseline scenario. When the most realistic assumptions are used and a carbon-cycle model is applied, an increased harvest level in forests leads to a permanent increase in atmospheric CO2 concentration. Keywords: atmosphere, bioenergy, carbon, climate change, Faustmann, impulse response functions
Located in Resources / Climate Science Documents