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100   $a20220907d2018      uy             0
101 0 $aeng
135   $aur|||||||||||
181   $ctxt$2rdacontent
182   $cc$2rdamedia
183   $acr$2rdacarrier
200 00$aClimate Change Impacts on Soil Processes and Ecosystem Properties /$fedited by William R. Horwath, Yakov Kuzyakov
210  1$aAmsterdam, Netherlands :$cElsevier,$d2018.
215   $a1 online resource
225 1 $aDevelopments in soil science
327   $gList of Contributors --$tSoils, Climate, and Ancient Civilizations /$rEric C. Brevik, Jeffrey A. Homburg, Jonathan A. Sandor --$gIntroduction --$tThe Use of Soils in Archaeology --$tStudies at Ancient Sites to Understand Soils --$tSoil Knowledge and Management in Early Civilizations --$tEffects of Ancient Agriculture on Soils and Societies --$tClimate Change and Ancient Cultures --$tConcluding Statements --$tAcknowledgments --$tReferences --$tSoil-Plant-Atmosphere Interactions : Ecological and Biogeographical Considerations for Climate-Change Research /$rLucas C.R. Silva, Hans Lambers --$gIntroduction --$tTerrestrial Life as a Stabilizing Climatic Force --$tContemporary Systems --$tSimplifying Complexity at the Soil-Plant-Atmosphere Interface --$tGaps in Knowledge --$tConservation and Management Opportunities --$tFinal Considerations --$tReferences --$tFurther Reading --$tThe Potential for Soils to Mitigate Climate Change Through Carbon Sequestration /$rWilliam R. Horwath, Yakov Kuzyakov --$tIntroduction --$tHumanities Reliance and Impact on Soils --$tSoil Organic Carbon Balance and Management to Sequester Carbon --$tAnimal Manures Sequester Soil Organic Carbon --$tPotential to Sequester Soil Organic Carbon --$tSoil Organic Carbon Sequestration to Address Climate Change --$tSequestering Soil Organic Carbon Requires N --$tAtmospheric Composition and Climate Change Impacts on Soil C Sequestration --$tResearch Needs in Soil Organic Carbon Sequestration --$tReferences --$tFurther Reading --$tRole of Mineralogy and Climate in the Soil Carbon Cycle /$rKatherine Heckman, Craig Rasmussen --$tMineralogy, Weathering, and the Inorganic C Cycle --$tClimate, Mineral Assemblage, and Soil Organic Carbon Are Intrinsically Linked Through Weathering Processes --$tMineral Stabilization of Soil Organic C-Bonding Mechanisms --$tMineral Stabilization of Soil Organic C-Field and Lab-Based Evidence --$gSummary --$tReferences --$tImpacts of Climate Change on Soil Microbial Communities and Their Functioning /$rFranciska T. de Vries, Roben J. Griffiths --$gIntroduction --$tShort History of Research on Climate Change Impacts on Soil Microbial Communities --$tHow can We Predict the Effect of Climate Change on Soil Microbial Communities? --$gConclusion --$tReferences --$tNitrous Oxide Production From Soils in the Future : Processes, Controls, and Responses to Climate Change /$rXia Zhu-Barker, Kerri L. Steenwerth --$gIntroduction --$tBiological Processes that Produce N?O in Soils --$tAmmonia Oxidation Pathways --$tHeterotrophic Denitrification --$tOther Biological Processes --$tAbiotic N?O Production in Soils --$tHydroxylamine Decomposition --$tChemodenitrification --$tLand Management Practices to Control N?O Emission From Soils --$tFertilization --$tIrrigation --$tTillage --$tCover Crops and Organic Amendments --$tClimate Change and Soil N20 Production --$gConclusions --$tAcknowledgments --$tReferences --$tThe Response of Forest Ecosystems to Climate Change /$rArmando Gomez-Guerrero, Timothy Doane --$gIntroduction --$tGlobal Distribution of Studies on Climate Change and Forest Soils --$tChanges in Net Primary Productivity of Forest Ecosystems --$tSequestration of Carbon in Forest Soils --$tThe Capacity of Forest Soils to Provide Ecosystem Services --$tSoil Processes in Relation to Soil Texture --$tMicrobial Processes in Forest Soils --$gConclusions --$tReferences --$tEffects of Elevated CO? in the Atmosphere on Soil C and N Turnover /$rYakov Kuzyakov, William R. Horwath, Maxim Dorodnikov, Evgenia Blagodatskaya --$gIntroduction --$tApproaches to Investigate Indirect Effects of Elevated CO2 Concentration on Soil Processes --$gResults and Discussion --$gConclusions --$gReferences --$gIndex.
330   $aClimate Change Impacts on Soil Processes and Ecosystem Properties, Volume 35, presents current and emerging soil science research in the areas of soil processes and climate change, while also evaluating future research needs. The book combines the five areas of soil science (microbiology, physics, fertility, pedology and chemistry) to give a comprehensive assessment. This integration of topics is rarely done in a single publication due to the disciplinary nature of the soil science areas. Users will find it to be a comprehensive resource on the topic.
410  0$aDevelopments in soil science.
606   $aSoils and climate
615  0$aSoils and climate.
676   $a631.4
702   $aHorwath$b William R.
702   $aKuzyakov$b Yakov
801  0$bNjHacI
801  1$bNjHacl
906   $aBOOK
912   $a9910583494803321
996   $aClimate Change Impacts on Soil Processes and Ecosystem Properties$91915333
997   $aUNINA