Belowground plant biomass allocation in tundra ecosystems and its relationship with temperature

Climate warming is known to increase the aboveground productivity of tundra ecosystems. Recently, belowground biomass is receiving more attention, but the effects of climate warming on belowground productivity remain unclear. Enhanced understanding of the belowground component of the tundra is impor...

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Published in	Environmental research letters Vol. 11; no. 5; pp. 55003 - 55010
Main Authors	Wang, Peng, Heijmans, Monique M P D, Mommer, Liesje, van Ruijven, Jasper, Maximov, Trofim C, Berendse, Frank
Format	Journal Article
Language	English
Published	Bristol IOP Publishing 2016
Subjects	belowground biomass Biomass biomass allocation Carbon Carbon cycle Climate Climate change Climate effects Ecosystems Global warming Nature Conservation and Plant Ecology Natuurbeheer en Plantenecologie PE&RC Plant biomass Plant communities Plant Ecology and Nature Conservation Plantenecologie en Natuurbeheer Productivity root biomass root:shoot ratio Taiga & tundra Tundra tundra vegetation WIMEK
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Abstract	Climate warming is known to increase the aboveground productivity of tundra ecosystems. Recently, belowground biomass is receiving more attention, but the effects of climate warming on belowground productivity remain unclear. Enhanced understanding of the belowground component of the tundra is important in the context of climate warming, since most carbon is sequestered belowground in these ecosystems. In this study we synthesized published tundra belowground biomass data from 36 field studies spanning a mean annual temperature (MAT) gradient from −20 °C to 0 °C across the tundra biome, and determined the relationships between different plant biomass pools and MAT. Our results show that the plant community biomass-temperature relationships are significantly different between above and belowground. Aboveground biomass clearly increased with MAT, whereas total belowground biomass and fine root biomass did not show a significant increase over the broad MAT gradient. Our results suggest that biomass allocation of tundra vegetation shifts towards aboveground in warmer conditions, which could impact on the carbon cycling in tundra ecosystems through altered litter input and distribution in the soil, as well as possible changes in root turnover.
AbstractList	Climate warming is known to increase the aboveground productivity of tundra ecosystems. Recently, belowground biomass is receiving more attention, but the effects of climate warming on belowground productivity remain unclear. Enhanced understanding of the belowground component of the tundra is important in the context of climate warming, since most carbon is sequestered belowground in these ecosystems. In this study we synthesized published tundra belowground biomass data from 36 field studies spanning a mean annual temperature (MAT) gradient from −20 °C to 0 °C across the tundra biome, and determined the relationships between different plant biomass pools and MAT. Our results show that the plant community biomass–temperature relationships are significantly different between above and belowground. Aboveground biomass clearly increased with MAT, whereas total belowground biomass and fine root biomass did not show a significant increase over the broad MAT gradient. Our results suggest that biomass allocation of tundra vegetation shifts towards aboveground in warmer conditions, which could impact on the carbon cycling in tundra ecosystems through altered litter input and distribution in the soil, as well as possible changes in root turnover. Climatewarming is known to increase the aboveground productivity of tundra ecosystems.Recently, belowground biomass is receiving more attention, but the effects of climate warming onbelowground productivity remain unclear. Enhanced understanding of the belowground componentof the tundra is important in the context of climate warming, sincemost carbon is sequesteredbelowground in these ecosystems. In this study we synthesized published tundra belowgroundbiomass data from36 field studies spanning amean annual temperature (MAT) gradient from−20 °C to 0 °C across the tundra biome, and determined the relationships between different plantbiomass pools andMAT. Our results show that the plant community biomass–temperaturerelationships are significantly different between above and belowground. Aboveground biomassclearly increased withMAT, whereas total belowground biomass and fine root biomass did not showa significant increase over the broadMATgradient. Our results suggest that biomass allocation oftundra vegetation shifts towards aboveground in warmer conditions,which could impact on thecarbon cycling in tundra ecosystems through altered litter input and distribution in the soil, aswellas possible changes in root turnover.
Author	Heijmans, Monique M P D Wang, Peng Mommer, Liesje van Ruijven, Jasper Maximov, Trofim C Berendse, Frank
Author_xml	– sequence: 1 givenname: Peng surname: Wang fullname: Wang, Peng email: peng.wang@wur.nl organization: Wageningen University Plant Ecology and Nature Conservation Group, PO Box 47, 6700 AA Wageningen, The Netherlands – sequence: 2 givenname: Monique M P D surname: Heijmans fullname: Heijmans, Monique M P D organization: Wageningen University Plant Ecology and Nature Conservation Group, PO Box 47, 6700 AA Wageningen, The Netherlands – sequence: 3 givenname: Liesje surname: Mommer fullname: Mommer, Liesje organization: Wageningen University Plant Ecology and Nature Conservation Group, PO Box 47, 6700 AA Wageningen, The Netherlands – sequence: 4 givenname: Jasper surname: van Ruijven fullname: van Ruijven, Jasper organization: Wageningen University Plant Ecology and Nature Conservation Group, PO Box 47, 6700 AA Wageningen, The Netherlands – sequence: 5 givenname: Trofim C surname: Maximov fullname: Maximov, Trofim C organization: North-Eastern Federal University , 677000 Yakutsk, Russia – sequence: 6 givenname: Frank surname: Berendse fullname: Berendse, Frank organization: Wageningen University Plant Ecology and Nature Conservation Group, PO Box 47, 6700 AA Wageningen, The Netherlands
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Snippet	Climate warming is known to increase the aboveground productivity of tundra ecosystems. Recently, belowground biomass is receiving more attention, but the... Climatewarming is known to increase the aboveground productivity of tundra ecosystems.Recently, belowground biomass is receiving more attention, but the...
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StartPage	55003
SubjectTerms	belowground biomass Biomass biomass allocation Carbon Carbon cycle Climate Climate change Climate effects Ecosystems Global warming Nature Conservation and Plant Ecology Natuurbeheer en Plantenecologie PE&RC Plant biomass Plant communities Plant Ecology and Nature Conservation Plantenecologie en Natuurbeheer Productivity root biomass root:shoot ratio Taiga & tundra Tundra tundra vegetation WIMEK
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Title	Belowground plant biomass allocation in tundra ecosystems and its relationship with temperature
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