TY - JOUR
AU1 - Curtis, Peter S.
AU2 - Balduman, Lisa M.
AU3 - Drake, Bert G.
AU4 - Whigham, Dennis F.
AB - Belowground carbon allocation is a major component of a plant's carbon budget, yet relatively little is known about the response of roots to elevated atmospheric CO2. We have exposed three brackish marsh communities dominated by perennial macrophytes to twice ambient CO2 concentrations for two full growing seasons using open top chambers. One community was dominated by the C3 sedge Scirpus olneyi, one was dominated by the C4 grass Spartina patens, and one was a mixture of S. olneyi, S. patens, and Distichlis spicata, a C4 grass. Root and rhizome growth were studied in the 2nd yr of exposure by measuring growth into peat cores previously excavated and refilled with sphagnum peat devoid of roots. Growth under elevated CO2 resulted in an 83% increase in root dry mass per core in the Scirpus community. Those roots were also significantly lower in percentage of nitrogen than roots from ambient—grown plants. There was no effect of elevated CO2 on root growth or nitrogen content in the Spartina community or in the C4 component of the Mixed community.
TI - Elevated Atmospheric CO2 Effects on Belowground Processes in C3 and C4 Estuarine Marsh Communities
JF - Ecology
DO - 10.2307/1937608
DA - 1990-10-01
UR - https://www.deepdyve.com/lp/wiley/elevated-atmospheric-co2-effects-on-belowground-processes-in-c3-and-c4-CrBNxIv97Z
SP - 2001
EP - 2006
VL - 71
IS - 5
DP - DeepDyve
ER -