VIAF

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Leader     00000nz a2200037n 45 0
001     WKP|Q109579588  (VIAF cluster)  (Authority/Source Record)
003     WKP
005     20241121000242.0
008     241121nneanz||abbn n and d
035 ‎‡a  (WKP)Q109579588‏
035 ‎‡a  (OCoLC)Q109579588‏
100 0 ‎‡a  Jack A. Morgan‏ ‎‡c  researcher‏ ‎‡9  en‏
670 ‎‡a  Author's Antecedent moisture and temperature conditions modulate the response of ecosystem respiration to elevated CO2 and warming‏
670 ‎‡a  Author's C4 grasses prosper as carbon dioxide eliminates desiccation in warmed semi-arid grassland‏
670 ‎‡a  Author's Carbon dioxide enrichment alters plant community structure and accelerates shrub growth in the shortgrass steppe‏
670 ‎‡a  Author's Challenging terrestrial biosphere models with data from the long-term multifactor Prairie Heating and CO2 Enrichment experiment‏
670 ‎‡a  Author's Climate change alters stoichiometry of phosphorus and nitrogen in a semiarid grassland‏
670 ‎‡a  Author's Climate change reduces the net sink of CH4 and N2O in a semiarid grassland‏
670 ‎‡a  Author's Climate warming alters photosynthetic responses to elevated CO2 in prairie plants‏
670 ‎‡a  Author's Concerning the Measurement and Magnitude of Heat, Water Vapor, and Carbon Dioxide Exchange from a Semiarid Grassland‏
670 ‎‡a  Author's Contrasting effects of elevated CO2 and warming on nitrogen cycling in a semiarid grassland‏
670 ‎‡a  Author's Controls over Soil Nitrogen Pools in a Semiarid Grassland Under Elevated CO2 and Warming‏
670 ‎‡a  Author's Daily and seasonal changes in soil amino acid composition in a semiarid grassland exposed to elevated CO2 and warming‏
670 ‎‡a  Author's Disentangling root responses to climate change in a semiarid grassland‏
670 ‎‡a  Author's Elevated carbon dioxide alters impacts of precipitation pulses on ecosystem photosynthesis and respiration in a semi-arid grassland‏
670 ‎‡a  Author's Elevated CO2 and Warming Effects on Soil Carbon Sequestration and Greenhouse Gas Exchange in Agroecosystems‏
670 ‎‡a  Author's Elevated CO2 and water addition enhance nitrogen turnover in grassland plants with implications for temporal stability‏
670 ‎‡a  Author's Elevated CO2, but not defoliation, enhances N cycling and increases short-term soil N immobilization regardless of N addition in a semiarid grassland‏
670 ‎‡a  Author's Elevated CO₂ does not offset greater water stress predicted under climate change for native and exotic riparian plants‏
670 ‎‡a  Author's Elevated CO2 effects on semi-arid grassland plants in relation to water availability and competition‏
670 ‎‡a  Author's Elevated CO2 further lengthens growing season under warming conditions‏
670 ‎‡a  Author's Elevated CO2and warming effects on CH4uptake in a semiarid grassland below optimum soil moisture‏
670 ‎‡a  Author's Importance of Early Season Conditions and Grazing on Carbon Dioxide Fluxes in Colorado Shortgrass Steppe‏
670 ‎‡a  Author's Invasive forb benefits from water savings by native plants and carbon fertilization under elevated CO2 and warming‏
670 ‎‡a  Author's Long-term exposure to elevated CO2 enhances plant community stability by suppressing dominant plant species in a mixed-grass prairie‏
670 ‎‡a  Author's Management Implications of Global Change for Great Plains Rangelands‏
670 ‎‡a  Author's Microbially mediated CH4 consumption and N2O emission is affected by elevated CO2, soil water content, and composition of semi-arid grassland species‏
670 ‎‡a  Author's Microclimatic performance of a free-air warming and CO2 enrichment experiment in windy Wyoming, USA‏
670 ‎‡a  Author's Next generation of elevated [CO2] experiments with crops: a critical investment for feeding the future world‏
670 ‎‡a  Author's Projected ecosystem impact of the Prairie Heating and CO2 Enrichment experiment.‏
670 ‎‡a  Author's Response of organic and inorganic carbon and nitrogen to long-term grazing of the shortgrass steppe‏
670 ‎‡a  Author's Response of soil organic matter pools to elevated CO2 and warming in a semi-arid grassland‏
670 ‎‡a  Author's Rhizodeposition stimulated by elevated CO2 in a semiarid grassland‏
670 ‎‡a  Author's Rhizosphere interactions, carbon allocation, and nitrogen acquisition of two perennial North American grasses in response to defoliation and elevated atmospheric CO2.‏
670 ‎‡a  Author's Rhizosphere priming: a nutrient perspective‏
670 ‎‡a  Author's Seasonality of soil moisture mediates responses of ecosystem phenology to elevated CO2 and warming in a semi-arid grassland‏
670 ‎‡a  Author's Simple additive effects are rare: a quantitative review of plant biomass and soil process responses to combined manipulations of CO2 and temperature‏
670 ‎‡a  Author's Soil and Plant Water Relations Determine Photosynthetic Responses of C3 and C4 Grasses in a Semi-arid Ecosystem under Elevated CO2‏
670 ‎‡a  Author's Soil Microbes Compete Strongly with Plants for Soil Inorganic and Amino Acid Nitrogen in a Semiarid Grassland Exposed to Elevated CO2 and Warming‏
670 ‎‡a  Author's Stable Isotope Constraints on Net Ecosystem Production Under Elevated CO2‏
670 ‎‡a  Author's USDA-ARS Global Change Research on Rangelands and Pasturelands‏
670 ‎‡a  Author's Warming reduces carbon losses from grassland exposed to elevated atmospheric carbon dioxide‏
670 ‎‡a  Author's Water limitation and plant inter-specific competition reduce rhizosphere-induced C decomposition and plant N uptake‏
670 ‎‡a  Author's Wetting and drying cycles drive variations in the stable carbon isotope ratio of respired carbon dioxide in semi-arid grassland‏
919 ‎‡a  usdaarsglobalchangeresearchonrangelandsandpasturelands‏ ‎‡A  USDA-ARS Global Change Research on Rangelands and Pasturelands‏ ‎‡9  1‏
919 ‎‡a  soilmicrobescompetestronglywithplantsforsoilinorganicandaminoacidnitrogeninasemiaridgrasslandexposedtoelevatedco2andwarming‏ ‎‡A  Soil Microbes Compete Strongly with Plants for Soil Inorganic and Amino Acid Nitrogen in a Semiarid Grassland Exposed to Elevated CO2 and Warming‏ ‎‡9  1‏
919 ‎‡a  soilandplantwaterrelationsdeterminephotosyntheticresponsesofc3andc4grassesinasemiaridecosystemunderelevatedco2‏ ‎‡A  Soil and Plant Water Relations Determine Photosynthetic Responses of C3 and C4 Grasses in a Semi-arid Ecosystem under Elevated CO2‏ ‎‡9  1‏
919 ‎‡a  simpleadditiveeffectsarerareaquantitativereviewofplantbiomassandsoilprocessresponsestocombinedmanipulationsofco2andtemperature‏ ‎‡A  Simple additive effects are rare: a quantitative review of plant biomass and soil process responses to combined manipulations of CO2 and temperature‏ ‎‡9  1‏
919 ‎‡a  seasonalityofsoilmoisturemediatesresponsesofecosystemphenologytoelevatedco2andwarminginasemiaridgrassland‏ ‎‡A  Seasonality of soil moisture mediates responses of ecosystem phenology to elevated CO2 and warming in a semi-arid grassland‏ ‎‡9  1‏
919 ‎‡a  rhizospherepriminganutrientperspective‏ ‎‡A  Rhizosphere priming: a nutrient perspective‏ ‎‡9  1‏
919 ‎‡a  rhizosphereinteractionscarbonallocationandnitrogenacquisitionof2perennialnorthamericangrassesinresponsetodefoliationandelevatedatmosphericco2‏ ‎‡A  Rhizosphere interactions, carbon allocation, and nitrogen acquisition of two perennial North American grasses in response to defoliation and elevated atmospheric CO2.‏ ‎‡9  1‏
919 ‎‡a  rhizodepositionstimulatedbyelevatedco2inasemiaridgrassland‏ ‎‡A  Rhizodeposition stimulated by elevated CO2 in a semiarid grassland‏ ‎‡9  1‏
919 ‎‡a  responseofsoilorganicmatterpoolstoelevatedco2andwarminginasemiaridgrassland‏ ‎‡A  Response of soil organic matter pools to elevated CO2 and warming in a semi-arid grassland‏ ‎‡9  1‏
919 ‎‡a  responseoforganicandinorganiccarbonandnitrogentolongtermgrazingoftheshortgrasssteppe‏ ‎‡A  Response of organic and inorganic carbon and nitrogen to long-term grazing of the shortgrass steppe‏ ‎‡9  1‏
919 ‎‡a  projectedecosystemimpactoftheprairieheatingandco2enrichmentexperiment‏ ‎‡A  Projected ecosystem impact of the Prairie Heating and CO2 Enrichment experiment.‏ ‎‡9  1‏
919 ‎‡a  nextgenerationofelevatedexperimentswithcropsacriticalinvestmentforfeedingthefutureworld‏ ‎‡A  Next generation of elevated [CO2] experiments with crops: a critical investment for feeding the future world‏ ‎‡9  1‏
919 ‎‡a  microclimaticperformanceofafreeairwarmingandco2enrichmentexperimentinwindywyomingusa‏ ‎‡A  Microclimatic performance of a free-air warming and CO2 enrichment experiment in windy Wyoming, USA‏ ‎‡9  1‏
919 ‎‡a  microbiallymediatedch4consumptionandn2oemissionisaffectedbyelevatedco2soilwatercontentandcompositionofsemiaridgrasslandspecies‏ ‎‡A  Microbially mediated CH4 consumption and N2O emission is affected by elevated CO2, soil water content, and composition of semi-arid grassland species‏ ‎‡9  1‏
919 ‎‡a  managementimplicationsofglobalchangeforgreatplainsrangelands‏ ‎‡A  Management Implications of Global Change for Great Plains Rangelands‏ ‎‡9  1‏
919 ‎‡a  longtermexposuretoelevatedco2enhancesplantcommunitystabilitybysuppressingdominantplantspeciesinamixedgrassprairie‏ ‎‡A  Long-term exposure to elevated CO2 enhances plant community stability by suppressing dominant plant species in a mixed-grass prairie‏ ‎‡9  1‏
919 ‎‡a  invasiveforbbenefitsfromwatersavingsbynativeplantsandcarbonfertilizationunderelevatedco2andwarming‏ ‎‡A  Invasive forb benefits from water savings by native plants and carbon fertilization under elevated CO2 and warming‏ ‎‡9  1‏
919 ‎‡a  importanceofearlyseasonconditionsandgrazingoncarbondioxidefluxesincoloradoshortgrasssteppe‏ ‎‡A  Importance of Early Season Conditions and Grazing on Carbon Dioxide Fluxes in Colorado Shortgrass Steppe‏ ‎‡9  1‏
919 ‎‡a  elevatedco2andwarmingeffectsonch4uptakeinasemiaridgrasslandbelowoptimumsoilmoisture‏ ‎‡A  Elevated CO2and warming effects on CH4uptake in a semiarid grassland below optimum soil moisture‏ ‎‡9  1‏
919 ‎‡a  elevatedco2furtherlengthensgrowingseasonunderwarmingconditions‏ ‎‡A  Elevated CO2 further lengthens growing season under warming conditions‏ ‎‡9  1‏
919 ‎‡a  elevatedco2effectsonsemiaridgrasslandplantsinrelationtowateravailabilityandcompetition‏ ‎‡A  Elevated CO2 effects on semi-arid grassland plants in relation to water availability and competition‏ ‎‡9  1‏
919 ‎‡a  elevatedco2doesnotoffsetgreaterwaterstresspredictedunderclimatechangefornativeandexoticriparianplants‏ ‎‡A  Elevated CO₂ does not offset greater water stress predicted under climate change for native and exotic riparian plants‏ ‎‡9  1‏
919 ‎‡a  elevatedco2butnotdefoliationenhancesncyclingandincreasesshorttermsoilnimmobilizationregardlessofnadditioninasemiaridgrassland‏ ‎‡A  Elevated CO2, but not defoliation, enhances N cycling and increases short-term soil N immobilization regardless of N addition in a semiarid grassland‏ ‎‡9  1‏
919 ‎‡a  elevatedco2andwateradditionenhancenitrogenturnoveringrasslandplantswithimplicationsfortemporalstability‏ ‎‡A  Elevated CO2 and water addition enhance nitrogen turnover in grassland plants with implications for temporal stability‏ ‎‡9  1‏
919 ‎‡a  elevatedco2andwarmingeffectsonsoilcarbonsequestrationandgreenhousegasexchangeinagroecosystems‏ ‎‡A  Elevated CO2 and Warming Effects on Soil Carbon Sequestration and Greenhouse Gas Exchange in Agroecosystems‏ ‎‡9  1‏
919 ‎‡a  elevatedcarbondioxidealtersimpactsofprecipitationpulsesonecosystemphotosynthesisandrespirationinasemiaridgrassland‏ ‎‡A  Elevated carbon dioxide alters impacts of precipitation pulses on ecosystem photosynthesis and respiration in a semi-arid grassland‏ ‎‡9  1‏
919 ‎‡a  disentanglingrootresponsestoclimatechangeinasemiaridgrassland‏ ‎‡A  Disentangling root responses to climate change in a semiarid grassland‏ ‎‡9  1‏
919 ‎‡a  dailyandseasonalchangesinsoilaminoacidcompositioninasemiaridgrasslandexposedtoelevatedco2andwarming‏ ‎‡A  Daily and seasonal changes in soil amino acid composition in a semiarid grassland exposed to elevated CO2 and warming‏ ‎‡9  1‏
919 ‎‡a  controlsoversoilnitrogenpoolsinasemiaridgrasslandunderelevatedco2andwarming‏ ‎‡A  Controls over Soil Nitrogen Pools in a Semiarid Grassland Under Elevated CO2 and Warming‏ ‎‡9  1‏
919 ‎‡a  contrastingeffectsofelevatedco2andwarmingonnitrogencyclinginasemiaridgrassland‏ ‎‡A  Contrasting effects of elevated CO2 and warming on nitrogen cycling in a semiarid grassland‏ ‎‡9  1‏
919 ‎‡a  concerningthemeasurementandmagnitudeofheatwatervaporandcarbondioxideexchangefromasemiaridgrassland‏ ‎‡A  Concerning the Measurement and Magnitude of Heat, Water Vapor, and Carbon Dioxide Exchange from a Semiarid Grassland‏ ‎‡9  1‏
919 ‎‡a  climatewarmingaltersphotosyntheticresponsestoelevatedco2inprairieplants‏ ‎‡A  Climate warming alters photosynthetic responses to elevated CO2 in prairie plants‏ ‎‡9  1‏
919 ‎‡a  climatechangereducesthenetsinkofch4andn2oinasemiaridgrassland‏ ‎‡A  Climate change reduces the net sink of CH4 and N2O in a semiarid grassland‏ ‎‡9  1‏
919 ‎‡a  climatechangealtersstoichiometryofphosphorusandnitrogeninasemiaridgrassland‏ ‎‡A  Climate change alters stoichiometry of phosphorus and nitrogen in a semiarid grassland‏ ‎‡9  1‏
919 ‎‡a  challengingterrestrialbiospheremodelswithdatafromthelongtermmultifactorprairieheatingandco2enrichmentexperiment‏ ‎‡A  Challenging terrestrial biosphere models with data from the long-term multifactor Prairie Heating and CO2 Enrichment experiment‏ ‎‡9  1‏
919 ‎‡a  carbondioxideenrichmentaltersplantcommunitystructureandacceleratesshrubgrowthintheshortgrasssteppe‏ ‎‡A  Carbon dioxide enrichment alters plant community structure and accelerates shrub growth in the shortgrass steppe‏ ‎‡9  1‏
919 ‎‡a  c4grassesprosperascarbondioxideeliminatesdesiccationinwarmedsemiaridgrassland‏ ‎‡A  C4 grasses prosper as carbon dioxide eliminates desiccation in warmed semi-arid grassland‏ ‎‡9  1‏
919 ‎‡a  antecedentmoistureandtemperatureconditionsmodulatetheresponseofecosystemrespirationtoelevatedco2andwarming‏ ‎‡A  Antecedent moisture and temperature conditions modulate the response of ecosystem respiration to elevated CO2 and warming‏ ‎‡9  1‏
919 ‎‡a  warmingreducescarbonlossesfromgrasslandexposedtoelevatedatmosphericcarbondioxide‏ ‎‡A  Warming reduces carbon losses from grassland exposed to elevated atmospheric carbon dioxide‏ ‎‡9  1‏
919 ‎‡a  waterlimitationandplantinterspecificcompetitionreducerhizosphereinduced100decompositionandplantnuptake‏ ‎‡A  Water limitation and plant inter-specific competition reduce rhizosphere-induced C decomposition and plant N uptake‏ ‎‡9  1‏
919 ‎‡a  wettinganddryingcyclesdrivevariationsinthestablecarbonisotoperatioofrespiredcarbondioxideinsemiaridgrassland‏ ‎‡A  Wetting and drying cycles drive variations in the stable carbon isotope ratio of respired carbon dioxide in semi-arid grassland‏ ‎‡9  1‏
919 ‎‡a  stableisotopeconstraintsonnetecosystemproductionunderelevatedco2‏ ‎‡A  Stable Isotope Constraints on Net Ecosystem Production Under Elevated CO2‏ ‎‡9  1‏
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996 ‎‡2  NUKAT|n 2016166409
996 ‎‡2  SUDOC|25759504X
996 ‎‡2  LC|n 85388035
996 ‎‡2  SUDOC|110805518
996 ‎‡2  LC|nr 93026806
996 ‎‡2  BNF|17033041
996 ‎‡2  BAV|495_7652
996 ‎‡2  BAV|495_7651
996 ‎‡2  BAV|495_7650
996 ‎‡2  NKC|pna20191047867
996 ‎‡2  DNB|1273111699
996 ‎‡2  BAV|495_7659
996 ‎‡2  BAV|495_7658
996 ‎‡2  CAOONL|ncf10190690
996 ‎‡2  LIH|LNB:C35_z_;=B_b_
996 ‎‡2  SUDOC|230172938
996 ‎‡2  PLWABN|9810539981305606
996 ‎‡2  LC|n 92107452
996 ‎‡2  SUDOC|175912882
996 ‎‡2  LC|no2008053738
996 ‎‡2  SUDOC|066996880
996 ‎‡2  LC|n 81121758
996 ‎‡2  ISNI|0000000367992166
996 ‎‡2  LIH|LNB:_u_Z4;=B_p_
996 ‎‡2  LIH|LNB:K_k_B;=BO
996 ‎‡2  J9U|987007433861805171
997 ‎‡a  0 0 lived 0 0‏ ‎‡9  1‏