Listing 1 - 2 of 2 |
Sort by
|
Choose an application
The cryosphere is very sensitive to climate change, and glaciers represent one of the most important archives of atmospheric composition and its variability. From the Himalaya to the European Alps, the longest mid-latitude mountain chain in the world, lie thousands of glaciers that have collected atmospheric compounds over the last millennia. China and Italy are located at the opposite terminals of this long mountain chain, comprising strategic positions for understanding climate evolution and providing important information for the modeling of future climates. The results presented are highlights of some of the most recent advances in cryospheric studies, especially on the topic of mineral dust and aerosols in the atmosphere. They evidence the complexity of the chemical–physical processes involving solid compounds occurring in glacier, snow, and permafrost environments, covering different aspects such as spatial and temporal trends, as well as the impact of mineral and nonmineral particles. Results also show that recent advances in measurement techniques and source apportionment may be powerful and sophisticated tools to provide novel, high-quality scientific information.
XAS spectroscopy --- bacteria --- XANES --- mineral elements --- X-ray fluorescence spectroscopy --- iron geochemistry --- ice --- X-ray absorption fine structure spectroscopy --- mineral dust --- compositional data analysis --- synchrotron radiation --- dust --- global warming hiatus --- simultaneous measurements --- TXRF --- low concentration elemental analysis --- global warming slowdown --- paleoclimatology --- water --- X-ray fluorescence --- snow --- long-range transport --- southern hemisphere --- Antarctica --- ice core --- cryoconite --- evaporation --- contaminants --- POPs --- paleoclimate --- XANES and LCF --- ultra-dilution --- particulate matter --- trace elements --- atmospheric mineral dust --- cryospheric sciences --- ice cores --- X-ray absorption near edge spectroscopy --- droplets --- Arctic rapid warming --- microbiology --- cryosphere --- polycapillary optics --- environment --- Laohugou glacier --- iron speciation --- X-ray absorption spectroscopy --- Arctic --- insoluble dust
Choose an application
Rising temperatures are affecting organisms in all of Earth's biomes, but the complexity of ecological responses to climate change has hampered the development of a conceptually unified treatment of them. In a remarkably comprehensive synthesis, this book presents past, ongoing, and future ecological responses to climate change in the context of two simplifying hypotheses, facilitation and interference, arguing that biotic interactions may be the primary driver of ecological responses to climate change across all levels of biological organization. Eric Post's synthesis and analyses of ecological consequences of climate change extend from the Late Pleistocene to the present, and through the next century of projected warming. His investigation is grounded in classic themes of enduring interest in ecology, but developed around novel conceptual and mathematical models of observed and predicted dynamics. Using stability theory as a recurring theme, Post argues that the magnitude of climatic variability may be just as important as the magnitude and direction of change in determining whether populations, communities, and species persist. He urges a more refined consideration of species interactions, emphasizing important distinctions between lateral and vertical interactions and their disparate roles in shaping responses of populations, communities, and ecosystems to climate change.
Climatic changes. --- Bioclimatology. --- Bioclimatics --- Biometeorology --- Climatology --- Ecology --- Changes, Climatic --- Changes in climate --- Climate change --- Climate change science --- Climate changes --- Climate variations --- Climatic change --- Climatic changes --- Climatic fluctuations --- Climatic variations --- Global climate changes --- Global climatic changes --- Climate change mitigation --- Teleconnections (Climatology) --- Environmental aspects --- Environmental aspects. --- Bioclimatology --- Global environmental change --- Industrial Revolution. --- Late Pleistocene. --- PleistoceneЈolocene transition. --- abiotic changes. --- abiotic compartments. --- abiotic conditions. --- amphibian breeding. --- biodiversity. --- biome shifts. --- biotic compartments. --- biotic interaction. --- character displacement. --- climate change ecology. --- climate change. --- climatic fluctuation. --- climatic variability. --- coexistence. --- community composition. --- community dynamics. --- community stability. --- competitive interactions. --- density-dependent processes. --- density-independent processes. --- diminishing land ice. --- diminishing sea ice. --- ecological dynamics. --- ecological theory. --- ecology. --- ecosystem carbon dynamics. --- ecosystem components. --- ecosystem dynamics. --- ecosystem function. --- ecosystem respiration. --- ecosystem stability. --- ecosystems. --- egg laying. --- emigration. --- environmental disturbance. --- environmental variability. --- environmental variation. --- extinction. --- facilitation. --- flowering. --- habitat utilization patterns. --- immigration. --- interference. --- life history. --- mass extinctions. --- migration. --- net ecosystem production. --- net primary productivity. --- niche concept. --- niche overlap. --- niche packing. --- niche theory. --- phenological dynamics. --- phenological events. --- phenology. --- plant emergence. --- population dynamics. --- population stability. --- quantitative ecology. --- rapid climate change. --- rapid warming. --- rising temperature. --- speciation. --- species assemblages. --- species distributions. --- species diversity. --- species losses. --- stability theory. --- stochastic environments. --- temperature variability.
Listing 1 - 2 of 2 |
Sort by
|