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File PDF document Another reason for concern: regional and global impacts on ecosystems for different levels of climate change
Between 1􏲒C and 2􏲒C increases in global mean temperatures most species, ecosystems and landscapes will be impacted and adaptive capacity will become limited. With the already ongoing high rate of climate change, the decline in biodiversity will therefore accelerate and simultaneously many ecosystem services will become less abundant.
Located in Resources / Climate Science Documents
File PDF document Anthony Downing 2001.pdf
Located in Resources / TRB Library / ANO-AYE
File PDF document Anthonyetal2001.pdf
Located in Resources / TRB Library / ALD-ANT
File PDF document Anthropogenic environments exert variable selection on cranial capacity in mammals
It is thought that behaviourally flexible species will be able to cope with novel and rapidly changing environments associated with human activity. However, it is unclear whether such environments are selecting for increases in behavioural plasticity, and whether some species show more pronounced evolutionary changes in plasticity. To test whether anthropogenic environ- ments are selecting for increased behavioural plasticity within species, we measured variation in relative cranial capacity over time and space in 10 species of mammals. We predicted that urban populations would show greater cranial capacity than rural populations and that cranial capacity would increase over time in urban populations. Based on relevant theory, we also predicted that species capable of rapid population growth would show more pronounced evolutionary responses. We found that urban populations of two small mammal species had significantly greater cranial capacity than rural populations. In addition, species with higher fecundity showed more pronounced differentiation between urban and rural populations. Contrary to expectations, we found no increases in cranial capacity over time in urban populations—indeed, two species tended to have a decrease in cranial capacity over time in urban populations. Furthermore, rural populations of all insectivorous species measured showed significant increases in relative cranial capacity over time. Our results provide partial support for the hypothesis that urban environments select for increased behavioural plasticity, although this selection may be most pronounced early during the urban colonization process. Furthermore, these data also suggest that behavioural plasticity may be simultaneously favoured in rural environments, which are also changing because of human activity.
Located in Resources / Climate Science Documents
File PDF document Anthropogenic influence on multidecadal changes in reconstructed global evapotranspiration
Global warming is expected to intensify the global hydrological cycle1, with an increase of both evapotranspiration (EVT) and precipitation. Yet, the magnitude and spatial distribution of this global and annual mean response remains highly uncertain2. Better constraining land EVT in twenty-first-century climate scenarios is critical for predicting changes in surface climate, including heatwaves3 and droughts4, evaluating impacts on ecosystems and water resources5, and designing adaptation policies. Continental scale EVT changes may already be underway6,7, but have never been attributed to anthropogenic emissions of greenhouse gases and sulphate aerosols. Here we provide global gridded estimates of annual EVT and demonstrate that the latitudinal and decadal differentiation of recent EVT variations cannot be understood without invoking the anthropogenic radiative forcings. In the mid-latitudes, the emerging picture of enhanced EVT confirms the end of the dimming decades 8 and highlights the possible threat posed by increasing drought frequency to managing water resources and achieving food security in a changing climate.
Located in Resources / Climate Science Documents
File PDF document Apoar 1887.pdf
Located in Resources / TRB Library / ANO-AYE
This web-based map tool of the energy assessment combines multiple layers of data on energy development trends and important natural resource and ecosystem services, to give a more comprehensive picture of what potential energy development could look like in the Appalachians. The tool shows where energy development is most likely to occur and indicates areas where such development may intersect with other significant values like intact forests, important streams, and vital ecological services such as drinking water supplies
Located in Appalachian Energy Forecast Model