Get Set, Go! H/w JOLA. Fill in the blanks. 1. We can only air. 2. The Earth is surrounded by a layer of air called 3. forms about 78 percent of the Earth's atmosphere. 4. Air has 5. Air takes up H/W B. Match the following. 1. Air 19JOT 2. Atmosphere 3. Cleanest air a. The layer of air around the Earth b. A mixture of gases c. Early morning hours 24
Answers
Answer:
step by step by explanatiion:
Explanation:
Scientific assessments of agricultural air quality, including estimates of emissions and potential sequestration of greenhouse gases, are an important emerging area of environmental science that offers significant challenges to policy and regulatory authorities. Improvements are needed in measurements, modeling, emission controls, and farm operation management. Controlling emissions of gases and particulate matter from agriculture is notoriously difficult as this sector affects the most basic need of humans, i.e., food. Current policies combine an inadequate science covering a very disparate range of activities in a complex industry with social and political overlays. Moreover, agricultural emissions derive from both area and point sources. In the United States, agricultural emissions play an important role in several atmospherically mediated processes of environmental and public health concerns. These atmospheric processes affect local and regional environmental quality, including odor, particulate matter (PM) exposure, eutrophication, acidification, exposure to toxics, climate, and pathogens. Agricultural emissions also contribute to the global problems caused by greenhouse gas emissions. Agricultural emissions are variable in space and time and in how they interact within the various processes and media affected. Most important in the U.S. are ammonia (where agriculture accounts for ∼90% of total emissions), reduced sulfur (unquantified), PM2.5 (∼16%), PM10 (∼18%), methane (∼29%), nitrous oxide (∼72%), and odor and emissions of pathogens (both unquantified). Agriculture also consumes fossil fuels for fertilizer production and farm operations, thus emitting carbon dioxide (CO2), oxides of nitrogen (NOx), sulfur oxides (SOx), and particulates. Current research priorities include the quantification of point and nonpoint sources, the biosphere−atmosphere exchange of ammonia, reduced sulfur compounds, volatile organic compounds, greenhouse gases, odor and pathogens, the quantification of landscape processes, and the primary and secondary emissions of PM. Given the serious concerns raised regarding the amount and the impacts of agricultural air emissions, policies must be pursued and regulations must be enacted in order to make real progress in reducing these emissions and their associated environmental impacts.