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$412.91 Carbon Dioxide As A Source Of Carbon: Biochemical And Chemical Uses

Electronics Cameras Computers Software Housewares Sports DVDs Music Books Games Toys in titles descriptions Company Info |Checkout Info |Shipping Info |Return Policy |FAQ's Add us as a favorite seller By continuing with your purchase using the eBay Buy It Now button, you agree to the Buy Terms of Use at http://stores.ebay.com/Buys-Internet-Superstore/Terms.html . Carbon Dioxide as a Source of Carbon: Biochemical and Chemical Uses THIS IS A BRAND NEW UNOPENED ITEM. Buy SKU: 33737248 If you want eBay

$53.99 Fire-maple Fms-706 High-power Torch

Product Highlights Produced in 2009. This product is exclusively developed for outdoor usage; please make sure not to use it inside building, vehicles or tents, as there might be a danger of death by asphyxiation due to carbon dioxide poisoning or oxygen deficiency. Even when using it as outdoors in narrow spaces, please make sure that there is sufficient ventilation. And always keep away from reach of children. Employ the latest two-channel preheating technique to ensure steadiness when used in any conditions. This torch with screw-type valve matches with all standard gas cartridges. The temperature of the fire can reach 1300?. The stove gets less in size and weight by using new-style round aluminium valve, which is an integrated adjustable valve, making the stove more stable and durable. Amazon Marketplace

$118.93 Elevated Carbon Dioxide: Impacts on Soil and Plant Water Relations

Between 1958 and 2008, the CO2 concentration in the atmosphere increased from 316 to 385 ppm. Continued increases in CO2 concentration will significantly affect long-term climate change, including variations in agricultural yields. Focusing on this critical issue, Elevated Carbon Dioxide: Impacts on Soil and Plant Water Relations presents research conducted on field-grown sorghum, winter wheat, and rangeland plants under elevated CO2. It describes specific results from pioneering experiments performed over a seven-year period in the Evapotranspiration Laboratory at Kansas State University, along with experiments appearing in peer-reviewed journal articles. Select articles from the literature serve as examples in the text. For each paper discussed, the author includes the common and scientific name of the plant under investigation. For each experiment, the author provides the type of soil used (if given in the original article) and general conditions of the experiment. All references are carefully documented so that readers can easily find the original source. The first chapter of the book deals with drought, the three types of photosynthesis, and how water moves through the soil–plant–atmosphere continuum. With a focus on soil, the next several chapters discuss the composition of the soil atmosphere, the interaction of elevated CO2 with physical factors that affect root growth, variable oxygen concentration of soil, and when the atmosphere above soil is elevated with CO2. The author goes on to examine the use of carbon isotope ratios in plant science; the effects of elevated CO2 on plant water, osmotic, and turgor potentials; and stomata under elevated CO2, including stomatal conductance and density. The text also explains the effects of elevated CO2 on transpiration and evapotranspiration, explores historical aspects of water use efficiency, compares C3 and C4 plants under elevated CO2, and details the advantages of C4 photosynthesis. The concluding chapters cover plant anatomy, the effects of elevated CO2 on phenology, and measures of plant growth. How have plants responded to increased levels of atmospheric CO2? Are some plants reacting better than others? Drawing on a host of scientific studies, this text explores how rising levels of CO2 in the atmosphere have impacted water in plants and soils. Amazon