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File PDF document Simpson 1901.pdf
Located in Resources / TRB Library / SIM-SPA
File PDF document Simpson Anodonta Dejecta.pdf
Located in Resources / TRB Library / SIM-SPA
File PDF document Simpson Indiana.pdf
Located in Resources / TRB Library / SIM-SPA
File PDF document Simpson Parvus Group.pdf
Located in Resources / TRB Library / SIM-SPA
File PDF document Simpson Unios.pdf
Located in Resources / TRB Library / SCH-SIM
File PDF document Simulating snowmelt process during rain-on-snow over a semi-arid mountain basin
In the Pacific Northwest of North America, significant flooding can occur during mid-winter rain-on-snow events. Warm, wet Pacific storms caused significant floods in the Pacific Northwest in February 1996, January 1997 and January 1998. Rapid melting of the mountain snow cover substantially augmented discharge during these flood events. An energy-balance snowmelt model is used to simulate snowmelt processes during the January 1997 event over a small headwater basin within the Reynolds Creek Experimental Watershed located in the Owyhee Mountains of southwestern Idaho, U.S.A. This sub-basin is 34% forested 􏰑12% fir, 22% aspen and 66% mixed sagebrush 􏰑primarily mountain big sage- brush)). Data from paired open and forested experimental sites were used to drive the model. Model-forcing data were corrected for topographic and vegetation canopy effects. The event was preceded by cold, stormy conditions that developed a significant snow cover over the sub- basin. The snow cover at sites protected by forest cover was slightly reduced, while at open sites significant snowmelt occurred. The warm, moist, windy conditions during the flooding event produced substantially higher melt rates in exposed areas, where sensible- and latent- heat exchanges contributed 60^90% of the energy for snowmelt. Simulated snow-cover devel- opment and ablation during the model run closely matched measured conditions at the two experimental sites. This experiment shows the sensitivity of snowmelt processes to both climate and land cover, and illustrates how the forest canopy is coupled to the hydrologic cycle in mountainous areas.
Located in Resources / Climate Science Documents
File PDF document Simultaneously Mitigating Near-Term Climate Change and Improving Human Health and Food Security
Tropospheric ozone and black carbon (BC) contribute to both degraded air quality and global warming. We considered ~400 emission control measures to reduce these pollutants by using current technology and experience. We identified 14 measures targeting methane and BC emissions that reduce projected global mean warming ~0.5°C by 2050. This strategy avoids 0.7 to 4.7 million annual premature deaths from outdoor air pollution and increases annual crop yields by 30 to 135 million metric tons due to ozone reductions in 2030 and beyond. Benefits of methane emissions reductions are valued at $700 to $5000 per metric ton, which is well above typical marginal abatement costs (less than $250). The selected controls target different sources and influence climate on shorter time scales than those of carbon dioxide–reduction measures. Implementing both substantially reduces the risks of crossing the 2°C threshold.
Located in Resources / Climate Science Documents
File PDF document Sinclair Tennessee River.pdf
Located in Resources / TRB Library / SIM-SPA
File PDF document Singer 1981.pdf
Located in Resources / TRB Library / SIM-SPA
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