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石福臣, LIFEN JIANG, , FUCHEN SHI, BO LI, YIQI LUO, JIQUAN CHEN, and JIAKUAN CHEN
Tree Physiology 25, 1187~1195,-0001,():
-1年11月30日
The potential capacity of soil to sequester carbon in response to globalwarming is strongly regulated by the ratio of rhizosphere respiration to respiration by soil microbial decomposers, because of their different temperature sensitivities. To quantify relative contributions of rhizosphere respiration to total soil respiration as influenced by forest stand development, we conducted a trenching study in two larch (Larix gmelini (Rupr.) Rupr.) plantations, aged 17 and 31 years, in northeastern China. Four plots in each plantation were randomly selected and trenched in early May 2001. Soil surface CO2 effluxes both inside and outside the plots were measured from May 2001 to August 2002. Soil respiration (i.e., the CO2 effluxes outside the trenched plots) varied similarly in the two plantations from 0.8μmolm-2s-1 in winter to 6.0μmolm-2s-1 in summer. Rhizosphere respiration (i.e., CO2 efflux outside the trenched plots minus that inside the plots) varied from 0.2 to 2.0μmolm-2s-1 in the old forest and from 0.3 to 4.0μmolm-2s-1 in the young forest over the seasons. Rhizosphere respiration, on average, accounted for 25% of soil respiration in the old forest and 65% in the young forest. Rhizosphere and soil respiration were significantly correlated with soil temperature but not with soil water content. We conclude that the role forests play in regulating climate change may depend on their age.
carbon dioxide,, forest age,, Q10,, soil respiration,, soil temperature,, soil water,, trenching method.,
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