Add to ORKG• The loss of carbon below-ground through respiration of fine roots may be modified by global change. Here we tested the hypothesis that a reduction in N concentration of tree fine-roots grown in an elevated atmospheric CO concentration would reduce maintenance respiration and that more energy would be used for root growth and N uptake. We partitioned total fine-root respiration (R ) between maintenance (R ), growth (R ), and N uptake respiration (R ) for loblolly pine (Pinus taeda) and sweetgum (Liquidambar styraciflua) forests exposed to elevated CO . • A substantial increase in fine-root production contributed to a 151% increase in R for loblolly pine in elevated CO . Root specific R for pine was 24% lower under elevated CO but when ...
A changing global climate may impact the respiration of fine roots. While many models adjust fine ro...
In most natural ecosystems a significant portion of carbon fixed through photosynthesis is allocated...
Rising atmospheric [CO2] has the potential to alter soil carbon (C) cycling by increasing the conten...
129 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2001.A large proportion of carbon ...
Forest ecosystems release large amounts of carbon to the atmosphere from fine-root respiration (Rr),...
With their dominant share in global plant biomass carbon (C), forests and their responses to atmosph...
Accurate estimates of root respiration are crucial to predicting below ground C cycling in forest ec...
In this study, we investigated the impact of elevated atmospheric CO2 (ambient + 350 µmol mol–1) on ...
• The Rhinelander free-air CO2 enrichment (FACE) experiment is designed to understand ecosystem resp...
Terrestrial ecosystems can be important sinks for rising atmospheric carbon dioxide (CO$\sb2)$ level...
Terrestrial ecosystems can be important sinks for rising atmospheric carbon dioxide (CO$\sb2)$ level...
Summary We measured seasonal fine root respiration rate in situ while controlling chamber temperatur...
Anthropogenic emissions of CO2 and other greenhouse gases have lead to a current atmospheric CO2 con...
• Stem respiration in trees results in substantial CO2 release to the atmosphere. Stem respiration i...
• Fine roots are the key link for plant water and nutrient uptake, soil carbon (C) input and soil mi...
A changing global climate may impact the respiration of fine roots. While many models adjust fine ro...
In most natural ecosystems a significant portion of carbon fixed through photosynthesis is allocated...
Rising atmospheric [CO2] has the potential to alter soil carbon (C) cycling by increasing the conten...
129 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2001.A large proportion of carbon ...
Forest ecosystems release large amounts of carbon to the atmosphere from fine-root respiration (Rr),...
With their dominant share in global plant biomass carbon (C), forests and their responses to atmosph...
Accurate estimates of root respiration are crucial to predicting below ground C cycling in forest ec...
In this study, we investigated the impact of elevated atmospheric CO2 (ambient + 350 µmol mol–1) on ...
• The Rhinelander free-air CO2 enrichment (FACE) experiment is designed to understand ecosystem resp...
Terrestrial ecosystems can be important sinks for rising atmospheric carbon dioxide (CO$\sb2)$ level...
Terrestrial ecosystems can be important sinks for rising atmospheric carbon dioxide (CO$\sb2)$ level...
Summary We measured seasonal fine root respiration rate in situ while controlling chamber temperatur...
Anthropogenic emissions of CO2 and other greenhouse gases have lead to a current atmospheric CO2 con...
• Stem respiration in trees results in substantial CO2 release to the atmosphere. Stem respiration i...
• Fine roots are the key link for plant water and nutrient uptake, soil carbon (C) input and soil mi...
A changing global climate may impact the respiration of fine roots. While many models adjust fine ro...
In most natural ecosystems a significant portion of carbon fixed through photosynthesis is allocated...
Rising atmospheric [CO2] has the potential to alter soil carbon (C) cycling by increasing the conten...