Influences of So ilMo isture on So il Respira tion

DENG Dong-zhou; FAN Zhi-ping; WANG Hong; SUN Xue-kai; GAO Jun-gang; ZENG De-hui; ZHANG Xin-hou

Volume 22 Issue 5

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Influences of So ilMo isture on So il Respira tion

1.
Daqinggou Ecological Station, Institute of App lied Ecology, Chinese Academy of Sciences, Shenyang　110016, Liaoning, China
2.
Graduate University of Chinese Academy of Sciences, Beijing　100039, China

Received Date: 2009-01-20

Abstract

Soil resp iration is an important component of the terrestrial ecosystems carbon cycle, and has great effectson maintaining the balance of global carbon. Global warming is expected to alter patterns of global atmospherecirculation and hydrologic cycling, and this will lead to the change of p recip itation regimes on global to regionalscales, which will have a direct effect on soilmoisture, so it is necessary to study how the change of soil moisturewould affect soil resp iration for p redicting change of soil carbon storage in the future. In this paper, the authorsreviewed the studies about the influences of soilmoisture change on soil resp iration, then analyzed how the change ofsoil moisture would affect each component of soil resp iration systemically, and introduced how the soil moisturewould affect Q10 briefly, finally, it point out the study fields that should be emphasized in the future.
- soil resp iration,
- root resp iration,
- microbial resp iration,
- soilmoisture,
- Q₁₀

References

[1]	Dixon R K, Brown S, Houghton R A, et al. Carbon pool sand fluxof global forest ecosystems [J]. Science, 1994, 263: 185 - 190
[2]	SchlesingerW H. Evidence from chronosequenee studies for a lowCarbon-storage potential of soil [J]. Nature, 1990, 348: 232 - 234
[3]	Raieh J W, Potter C S. Global patterns of carbon dioxide emissionsfrom soils [J]. Global Biochemical Cycles, 1995, 9: 23 - 36
[4]	Oreskes N. The scientific consensus on climate change [J]. Science, 2004, 306: 1686
[5]	Mahlman J D. Uncertainties in p rojections of human-caused climatewarming [J]. Science, 1997, 278: 1416 - 1417
[6]	Davidson E A, VerchotL V, Cattànio J H, et al. Effects of soilwater content on soil resp iration in forests and cattle pastures of easternAmazonia [J]. Biochemistry, 2000, 48: 53 - 69
[7]	Oberbauer S F, Gillesp ie C T, Cheng W, et al. Environmentaleffects on CO- efflux from riparian tundra in the northern foothills ofthe Brooks Range, Alaska, USA [J]. Oecologia, 1992, 92: 568 -577
[8]	Reth S, ReichsteinM, Falge E. The effect of soilwater content, soiltemperature, soil PH-value and the root mass on soil CO- efflux-Amodified modiel [J]. Plant and Soil, 2005, 268: 21 - 23
[9]	Fernandez D P, Neff J C, Belna PJ, et al. Soil resp iration in thecold desert environment of the Colorado Plateau (USA) : abiotic regulators and thresholds [J]. Biogeochemistry, 2006, 78: 247 - 265
[10]	Keith H, Jacobsenl K L, Raison R J. Effects of soil phosphorus availability, temperature and moisture on soil resp iration in Eucalyptus pauciflora forest [J]. Plant and Soil, 1997, 190: 127 - 141
[11]	LavigneM B, Foster R J, Goodine G. Seasonal and annual changesin soil resp iration in relation to soil temperature, water potential andtrenching [J]. Tree Physiology, 2004, 24: 415 - 424
[12]	Davidson E A, Belk E, Boone R D. Soilwater content and temperature as independent or confounded factors controlling soil resp iration in a temperate mixed hardwood forest [J]. Global Change Biology, 1998, 4: 217 - 227
[13]	陈全胜,李凌浩,韩兴国,等. 典型温带草原群落土壤呼吸温度敏感性与土壤水分的关系[J]. 生态学报, 2004, 24 (4) :831 - 836
[14]	ReichsteinM, Rey A, FreibauerA, et al. Modeling temporal andlarge-scale variability of soil resp iration from soilwater availability,temperature and vegetation p roductivity indices[J]. GlobalBiogeochemistry Cycles, 2003, 17 (4) : 1104
[15]	Raich JW, SchlesingerW H. The global carbon dioxide flux in soilresp iration and its relationship to vegetation and climate [J]. Tellus, 1992, 44 (B) : 81 - 99
[16]	刘绍辉,方精云,清田信. 北京山地温带森林的土壤呼吸[J].植物生态学报, 1998, 22 (-) : 119 - 126
[17]	贾丙瑞, 周广胜, 王风玉,等. 土壤微生物与根系呼吸作用影响因子分析[J]. 应用生态学报, 2005, 16 (8) : 1547 - 1552
[18]	OhashiM, Gyokusen K, Saito A. Contribution of root resp iration tototal soil resp iration in a Japanese cedar (Cryptom eria japonica D.Don) artificial forest [J]. Ecological Research, 2000, 15:323 - 333
[19]	杨玉盛,陈光水,董　彬,等. 格氏栲天然林和人工林土壤呼吸对干湿交替的响应[J]. 生态学报, 2004, 24 (5) : 953 - 958
[20]	杨玉盛,董　彬,谢锦升,等. 林木根呼吸及测定方法进展[J].植物生态学报, 2004, 28 (3) : 426 - 434
[21]	侯　琳,雷瑞德,王得祥,等. 森林生态系统土壤呼吸研究进展[J]. 土壤通报, 2006, 37 (3) : 589 - 594
[22]	Xuming H, Lakso A N, Eissenstat. Interactive effects of soil temperature and moisture on Concord grape root resp iration [J]. Journal of Experimental Botany, 2005, 56: 2651 - 2660
[23]	Amthor J S. The role of maintenance resp iration in p lant growth[J]. Plant, Cell and Environment, 1984, 7: 561 - 569
[24]	周广胜,王玉辉. 全球生态学[M]. 北京:气象出版社, 2003
[25]	张喜旺. 宁南山区干草原地下生物量与降水量的相关分析[J]. 环境保护与治理, 2002 (9) : 44 - 45
[26]	郭建平,高素华. 沙地植物生长对CO- 增加和土壤干旱的响应[J]. 水土保持学报, 2004, 18 (4) : 174 - 176
[27]	宋凤斌,戴俊英. 玉米茎叶和根系的生长对干旱胁迫的反应和适应性[J]. 干旱区研究, 2005, 22 (-) : 256 - 258
[28]	张宪权,王文杰,祖元刚,等. 东北地区几种不同林分土壤呼吸组分的差异性的研究[J]. 东北林业大学学报, 2005, 33 (-) :46 - 73
[29]	Tufekcioglu A, Raich J W, Isenhart TM, et al. Soil resp irationwithin riparian buffers and adjacent crop fields [J]. Plant andSoil, 2001, 229: 117 - 124
[30]	Rakonczay Z, Seiler J R, Kelting D L. Carbon efflux rates of fineroot of three tree species decline shortly after excision [J]. Environmental and Experimental Botany, 1997, 38 (3) : 243 - 249
[31]	Pregitzer K S, LaskowskiM J, Burton A J, et al. Variation in sugarmap le root resp iration with root diameter and soil dep th [J]. TreePhysiology, 1998, 18 (10) : 665 - 670
[32]	董云社,齐玉春,刘纪远, 等. 不同降水强度4种草地群落土壤呼吸通量变化特征[J]. 科学通报, 2005, 50: 473 - 480
[33]	韩希英,宋凤斌. 干旱胁迫对玉米根系生长及根际养分的影响[J]. 水土保持学报, 2006, 20 (3) : 170 - 172
[34]	Casals P, Romanyo J, Cortina J, et al. CO- efflux from aMediterranean semi-arid forest soil. I. Seasonality and effects of stoniness[J]. Biogeochemistry, 2000, 48: 261 - 281
[35]	陈全胜,李凌浩,韩兴国, 等. 水分对土壤呼吸的影响及机理[J]. 生态学报, 2003, 23: 972 - 978
[36]	BorkenW, Davidson E A, Savage A K, et al. Determination of drying and wetting effects on carbon dioxide release from organic horizon using DC half-bridge sensors [J]. Soil Science Society of America Journal, 2003, 67: 1888 - 1896
[37]	Rosacker L L, Kieff TL. Biomass and adenylate energy charge of agrassland soil during drying [J]. Soil Biology and Biochemistry,1990, 22: 1121 - 1127
[38]	Scott-Denton L E, Rosentiel T N, Monson R K. Differential controls by climate and substrate over the heterotrophic and rhizospheric components of soil resp iration [J]. Global Change Biology,2006, 12: 205 - 216
[39]	王义祥,任丽花,翁伯琦, 等. 土壤干旱胁迫对圆叶决明土壤微生物的生态效应[J]. 厦门大学学报: 自然科学版, 2005, 44(6) : 66 - 68
[40]	FranzluebbersA J, Haney R L, Honeycutt C W, et al. Flush ofcarbon dioxide following rewetting of dried soil relates to activeorganic pools [J]. SoilBiology &Biochemistry, 2000, 64: 613 -623
[41]	Merilap P, Ohtonen R. Soilmicrobial activity in the coastalNorwaysp ruce (Picea abies (L.) Karst) forests of the Gulf of Bothnia inrelation to humus-layer quality, moisture and soil types [J]. Biology and Fertility Soils, 1997, 25: 361 - 365
[42]	Cook R J, Papendick R. Soilwater potential as a factor in the ecology of Fusarium roseum f. sp. Ceelis Culmorum [J]. Plant andSoil, 1970, 32: 131 - 145
[43]	Houghton J T, Ding Y, Griggs D J, et al. Climate Change 2001:The Scientific Basis [M]. Cambridge University Press, 2001:1 - 896
[44]	Fang C, Moncrieff J B. The dependence of soil CO- efflux on temperature [J]. Soil Biology & Biochemistry, 2001, 33: 155 - 165
[45]	Fang C, Smith P, Moncrieff J B, et al. Similar response of labileand resistant soil organic matter pools to changes in temperature[J]. Nature, 2005, 433: 57 - 59
[46]	Winkler J P, Cherry R S, SchlesingerW H. The Q10 relationship ofmicrobial resp iration in a temperate forest soil [J]. Soil Biology &Biochemistry, 1996, 28 (8) : 1067 - 1072
[47]	Smith V R. Soil resp iration and its determinants on a sub-Antarcticisland [J]. Soil Biology & Biochemistry, 2003, 35: 77 - 91
[48]	Gulledge J, Schimel J P. Controls on soil carbon dioxide and methane fluxes in a variety of Taiga Forest stands in Interior Alaska[J]. Ecosystem, 2003, 3: 269 - 282
[49]	YiqiL, ShiqiangW, Dafang H, et al. Acclimatization of soil resp iration to warming in a tall grass p rairie [J]. Nature, 2001, 413:622 - 625

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通讯作者: 陈斌, bchen63@163.com

1.
沈阳化工大学材料科学与工程学院沈阳 110142

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Influences of So ilMo isture on So il Respira tion

1. Daqinggou Ecological Station, Institute of App lied Ecology, Chinese Academy of Sciences, Shenyang　110016, Liaoning, China

2. Graduate University of Chinese Academy of Sciences, Beijing　100039, China

Received Date: 2009-01-20

Abstract: Soil resp iration is an important component of the terrestrial ecosystems carbon cycle, and has great effectson maintaining the balance of global carbon. Global warming is expected to alter patterns of global atmospherecirculation and hydrologic cycling, and this will lead to the change of p recip itation regimes on global to regionalscales, which will have a direct effect on soilmoisture, so it is necessary to study how the change of soil moisturewould affect soil resp iration for p redicting change of soil carbon storage in the future. In this paper, the authorsreviewed the studies about the influences of soilmoisture change on soil resp iration, then analyzed how the change ofsoil moisture would affect each component of soil resp iration systemically, and introduced how the soil moisturewould affect Q10 briefly, finally, it point out the study fields that should be emphasized in the future.

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Reference (49)

[1]	Dixon R K, Brown S, Houghton R A, et al. Carbon pool sand fluxof global forest ecosystems [J]. Science, 1994, 263: 185 - 190
[2]	SchlesingerW H. Evidence from chronosequenee studies for a lowCarbon-storage potential of soil [J]. Nature, 1990, 348: 232 - 234
[3]	Raieh J W, Potter C S. Global patterns of carbon dioxide emissionsfrom soils [J]. Global Biochemical Cycles, 1995, 9: 23 - 36
[4]	Oreskes N. The scientific consensus on climate change [J]. Science, 2004, 306: 1686
[5]	Mahlman J D. Uncertainties in p rojections of human-caused climatewarming [J]. Science, 1997, 278: 1416 - 1417
[6]	Davidson E A, VerchotL V, Cattànio J H, et al. Effects of soilwater content on soil resp iration in forests and cattle pastures of easternAmazonia [J]. Biochemistry, 2000, 48: 53 - 69
[7]	Oberbauer S F, Gillesp ie C T, Cheng W, et al. Environmentaleffects on CO- efflux from riparian tundra in the northern foothills ofthe Brooks Range, Alaska, USA [J]. Oecologia, 1992, 92: 568 -577
[8]	Reth S, ReichsteinM, Falge E. The effect of soilwater content, soiltemperature, soil PH-value and the root mass on soil CO- efflux-Amodified modiel [J]. Plant and Soil, 2005, 268: 21 - 23
[9]	Fernandez D P, Neff J C, Belna PJ, et al. Soil resp iration in thecold desert environment of the Colorado Plateau (USA) : abiotic regulators and thresholds [J]. Biogeochemistry, 2006, 78: 247 - 265
[10]	Keith H, Jacobsenl K L, Raison R J. Effects of soil phosphorus availability, temperature and moisture on soil resp iration in Eucalyptus pauciflora forest [J]. Plant and Soil, 1997, 190: 127 - 141
[11]	LavigneM B, Foster R J, Goodine G. Seasonal and annual changesin soil resp iration in relation to soil temperature, water potential andtrenching [J]. Tree Physiology, 2004, 24: 415 - 424
[12]	Davidson E A, Belk E, Boone R D. Soilwater content and temperature as independent or confounded factors controlling soil resp iration in a temperate mixed hardwood forest [J]. Global Change Biology, 1998, 4: 217 - 227
[13]	陈全胜,李凌浩,韩兴国,等. 典型温带草原群落土壤呼吸温度敏感性与土壤水分的关系[J]. 生态学报, 2004, 24 (4) :831 - 836
[14]	ReichsteinM, Rey A, FreibauerA, et al. Modeling temporal andlarge-scale variability of soil resp iration from soilwater availability,temperature and vegetation p roductivity indices[J]. GlobalBiogeochemistry Cycles, 2003, 17 (4) : 1104
[15]	Raich JW, SchlesingerW H. The global carbon dioxide flux in soilresp iration and its relationship to vegetation and climate [J]. Tellus, 1992, 44 (B) : 81 - 99
[16]	刘绍辉,方精云,清田信. 北京山地温带森林的土壤呼吸[J].植物生态学报, 1998, 22 (-) : 119 - 126
[17]	贾丙瑞, 周广胜, 王风玉,等. 土壤微生物与根系呼吸作用影响因子分析[J]. 应用生态学报, 2005, 16 (8) : 1547 - 1552
[18]	OhashiM, Gyokusen K, Saito A. Contribution of root resp iration tototal soil resp iration in a Japanese cedar (Cryptom eria japonica D.Don) artificial forest [J]. Ecological Research, 2000, 15:323 - 333
[19]	杨玉盛,陈光水,董　彬,等. 格氏栲天然林和人工林土壤呼吸对干湿交替的响应[J]. 生态学报, 2004, 24 (5) : 953 - 958
[20]	杨玉盛,董　彬,谢锦升,等. 林木根呼吸及测定方法进展[J].植物生态学报, 2004, 28 (3) : 426 - 434
[21]	侯　琳,雷瑞德,王得祥,等. 森林生态系统土壤呼吸研究进展[J]. 土壤通报, 2006, 37 (3) : 589 - 594
[22]	Xuming H, Lakso A N, Eissenstat. Interactive effects of soil temperature and moisture on Concord grape root resp iration [J]. Journal of Experimental Botany, 2005, 56: 2651 - 2660
[23]	Amthor J S. The role of maintenance resp iration in p lant growth[J]. Plant, Cell and Environment, 1984, 7: 561 - 569
[24]	周广胜,王玉辉. 全球生态学[M]. 北京:气象出版社, 2003
[25]	张喜旺. 宁南山区干草原地下生物量与降水量的相关分析[J]. 环境保护与治理, 2002 (9) : 44 - 45
[26]	郭建平,高素华. 沙地植物生长对CO- 增加和土壤干旱的响应[J]. 水土保持学报, 2004, 18 (4) : 174 - 176
[27]	宋凤斌,戴俊英. 玉米茎叶和根系的生长对干旱胁迫的反应和适应性[J]. 干旱区研究, 2005, 22 (-) : 256 - 258
[28]	张宪权,王文杰,祖元刚,等. 东北地区几种不同林分土壤呼吸组分的差异性的研究[J]. 东北林业大学学报, 2005, 33 (-) :46 - 73
[29]	Tufekcioglu A, Raich J W, Isenhart TM, et al. Soil resp irationwithin riparian buffers and adjacent crop fields [J]. Plant andSoil, 2001, 229: 117 - 124
[30]	Rakonczay Z, Seiler J R, Kelting D L. Carbon efflux rates of fineroot of three tree species decline shortly after excision [J]. Environmental and Experimental Botany, 1997, 38 (3) : 243 - 249
[31]	Pregitzer K S, LaskowskiM J, Burton A J, et al. Variation in sugarmap le root resp iration with root diameter and soil dep th [J]. TreePhysiology, 1998, 18 (10) : 665 - 670
[32]	董云社,齐玉春,刘纪远, 等. 不同降水强度4种草地群落土壤呼吸通量变化特征[J]. 科学通报, 2005, 50: 473 - 480
[33]	韩希英,宋凤斌. 干旱胁迫对玉米根系生长及根际养分的影响[J]. 水土保持学报, 2006, 20 (3) : 170 - 172
[34]	Casals P, Romanyo J, Cortina J, et al. CO- efflux from aMediterranean semi-arid forest soil. I. Seasonality and effects of stoniness[J]. Biogeochemistry, 2000, 48: 261 - 281
[35]	陈全胜,李凌浩,韩兴国, 等. 水分对土壤呼吸的影响及机理[J]. 生态学报, 2003, 23: 972 - 978
[36]	BorkenW, Davidson E A, Savage A K, et al. Determination of drying and wetting effects on carbon dioxide release from organic horizon using DC half-bridge sensors [J]. Soil Science Society of America Journal, 2003, 67: 1888 - 1896
[37]	Rosacker L L, Kieff TL. Biomass and adenylate energy charge of agrassland soil during drying [J]. Soil Biology and Biochemistry,1990, 22: 1121 - 1127
[38]	Scott-Denton L E, Rosentiel T N, Monson R K. Differential controls by climate and substrate over the heterotrophic and rhizospheric components of soil resp iration [J]. Global Change Biology,2006, 12: 205 - 216
[39]	王义祥,任丽花,翁伯琦, 等. 土壤干旱胁迫对圆叶决明土壤微生物的生态效应[J]. 厦门大学学报: 自然科学版, 2005, 44(6) : 66 - 68
[40]	FranzluebbersA J, Haney R L, Honeycutt C W, et al. Flush ofcarbon dioxide following rewetting of dried soil relates to activeorganic pools [J]. SoilBiology &Biochemistry, 2000, 64: 613 -623
[41]	Merilap P, Ohtonen R. Soilmicrobial activity in the coastalNorwaysp ruce (Picea abies (L.) Karst) forests of the Gulf of Bothnia inrelation to humus-layer quality, moisture and soil types [J]. Biology and Fertility Soils, 1997, 25: 361 - 365
[42]	Cook R J, Papendick R. Soilwater potential as a factor in the ecology of Fusarium roseum f. sp. Ceelis Culmorum [J]. Plant andSoil, 1970, 32: 131 - 145
[43]	Houghton J T, Ding Y, Griggs D J, et al. Climate Change 2001:The Scientific Basis [M]. Cambridge University Press, 2001:1 - 896
[44]	Fang C, Moncrieff J B. The dependence of soil CO- efflux on temperature [J]. Soil Biology & Biochemistry, 2001, 33: 155 - 165
[45]	Fang C, Smith P, Moncrieff J B, et al. Similar response of labileand resistant soil organic matter pools to changes in temperature[J]. Nature, 2005, 433: 57 - 59
[46]	Winkler J P, Cherry R S, SchlesingerW H. The Q10 relationship ofmicrobial resp iration in a temperate forest soil [J]. Soil Biology &Biochemistry, 1996, 28 (8) : 1067 - 1072
[47]	Smith V R. Soil resp iration and its determinants on a sub-Antarcticisland [J]. Soil Biology & Biochemistry, 2003, 35: 77 - 91
[48]	Gulledge J, Schimel J P. Controls on soil carbon dioxide and methane fluxes in a variety of Taiga Forest stands in Interior Alaska[J]. Ecosystem, 2003, 3: 269 - 282
[49]	YiqiL, ShiqiangW, Dafang H, et al. Acclimatization of soil resp iration to warming in a tall grass p rairie [J]. Nature, 2001, 413:622 - 625

Influences of So ilMo isture on So il Respira tion

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通讯作者: 陈斌, bchen63@163.com

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