Biomass and nutrient responses of a clonal tundra sedge to climate warming
We explored how climate change affects biomass, nutrient status, and late-season resource-allocation patterns in a rhizomatous tundra sedge, and how differentiation and development of ramets may constrain plant responses. We simulated climate warming for 5 years at a subarctic–alpine tundra site by...
| Published in: | Canadian Journal of Botany |
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| Main Authors: | , , |
| Format: | Article in Journal/Newspaper |
| Language: | English |
| Published: |
Canadian Science Publishing
2005
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| Subjects: | |
| Online Access: | http://dx.doi.org/10.1139/b05-129 http://www.nrcresearchpress.com/doi/full-xml/10.1139/b05-129 http://www.nrcresearchpress.com/doi/pdf/10.1139/b05-129 |
| Summary: | We explored how climate change affects biomass, nutrient status, and late-season resource-allocation patterns in a rhizomatous tundra sedge, and how differentiation and development of ramets may constrain plant responses. We simulated climate warming for 5 years at a subarctic–alpine tundra site by using open-top chambers before destructively sampling clonal fragments of the dominant and widespread sedge, Carex bigelowii Torr. ex Schwein. We found differential growth response among ramets to experimental warming, but reduced aboveground tissue nutrient concentrations across entire clonal systems. Warming did not affect biomass allocation within ramets, but it did change biomass allocation among developmental stages and ramet types (i.e., long- and short-rhizome ramets, termed guerrilla and phalanx). A positive warming effect on biomass was mostly confined to mature vegetative ramets and the response of individual plant parts was significantly greater for guerrilla ramets than for phalanx ramets. Despite the differential biomass response, warming significantly reduced nitrogen and phosphorus concentrations in aboveground tissues across all developmental stages within the integrated clonal system (10% decrease in green leaf nitrogen concentration, 18%–25% decrease in phosphorus concentration). However, late-season nutrient concentrations in storage organs (rhizomes) were not affected. Nutrient pools significantly increased in mature vegetative ramets, especially those of the guerrilla type, apparently as a result of both redistribution of nutrients among ramets and increased nutrient uptake. At the community level, estimated aboveground biomass per unit area was similar in warmed and control plots. Rhizome and dead-leaf mass and all nutrient pools per unit area were 10%–20% less in warmed plots than in controls. The ecosystem implications of the responses of C. bigelowii, a forage species favoured by a range of herbivores, to warming are a reduction in forage quality without compensation in terms of quantity and, ... |
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