cje ›› 2003, Vol. ›› Issue (5): 108-112.
Previous Articles Next Articles
SHI Yi1, CHEN Xin1, YANG Xuelian2, WEN Dazhong 1
Received:
2002-04-02
Revised:
2002-06-05
Online:
2003-05-10
CLC Number:
SHI Yi, CHEN Xin, YANG Xuelian, WEN Dazhong . Review on study of the "slow" soil organic carbon pool[J]. cje, 2003, (5): 108-112.
Add to citation manager EndNote|Ris|BibTeX
[1]Angers DA, et al. 1993. Early change in water-stable aggregation induced by rotation and tillage in a soil under barley production[J]. Can . J. Soil Sci., 73:51~59. [2]Angers DA, et al. 1995. Dynamics of soil organic matter and crop residues affected by tillage practices[J]. Soil Sci. Sco. Amer.J.,59:1311~1315. [3]Angers DA, Recous S, Aita C. 1997. Fate of carbon and nitrogen in water-stable aggregates during decomposition of 13C 15N-labeled wheat straw in situ[J]. European J. Soil Sci., 48:295~300. [4]Aoyama M, Angers DA. 2000. Metabolism of 13C-labeled glucose in aggregates from soils with manure application[J]. Soil Biol.Biochem., 32:295~300. [5]Aoyama M, Angers DA, Dayegamiye A. 1999a. Particulate and mineral associated organic matter in stable aggregates as affected by fertilizer and manure applications[J]. Can. J. Soil Sci., 79:295~302. [6]Beare MH, Hendrix PF, Coleman DC. 1994. Water-stable aggregates organic matter fractions in conventional and no-tillage soil[J]. Soil Sci. Soc. Amer. J. , 58: 777~786. [7]Beare MH, Hendrix PF, Coleman DC. 1994. Aggregate-protected and unprotected organic matter pools in conventional and notillage soils[J]. Soil Sci. Soc. Amer. J., 58: 787~795. [8]Besnard E, Chenu E, Balesdent J, et al. 1996. Fate of particulate organic matter in soil aggregates during cultivation[J]. Eur. J.Soil Sci., 47: 495~503. [9]Bowman RA, Vigil MF, Nielsen DC, et al. 1999. Soil organic matter changes in intensively cropped dryland systems[J]. Soil Sci. Sco . Amer . J . , 63:186~191. [10]Cambardella CA, Elliott ET. 1992. Particulate soil organic matter across a grassland cultivation sequence[J]. Soil Sci. Soc. Amer.J., 56: 776~783. [11]Cambardella CA, Elliott ET. 1993. Carbon and nitrogen distribution in aggregates from cultivated and native grassland soil[J].Soil Sci. Soc. Arner. J. , 57:1071~1076. [12]Campbell CA. 1996. Long-term effects of tillage and crop rotations on soil organic carbon and total nitrogen in clay soil in southwestern Saskatchewan[J]. Can. J. Soil Sci., 76: 395~401. [13]Chan KY, Heenan DP, Oates A, et al. 2002. Soil carbon fractions and relationship to soil quality under different tillage and stubble management[J]. Soil Tillage Res., 63(3-4): 133-139. [14]Chan KY. 1997. Consequences of changes in particulate organic carbon in verticals under pasture and cropping[J]. Soil Sci. Soc.Amer.J., 61:1376~1382. [15]Denef K, Six J, Paustian K, et al. 2001. Importance of macroaggregate dynamics in controlling soil carbon stabilization: shortterm effects of physical disturbance induced by dry-wet cycles[J]. Soil Biol. Biochem . ,33:2145~2153. [16]Denef K, Six J, Bossuyt H, et al. 2001. Influence of dry-wet cycles on the interrelationship between aggregate, particulate organic matter, and microbial community dynamics[J]. Soil Biol.Biochem., 33:1599~1611. [17]Franzluebbers AJ, Arshad MA. 1997. Particulate organic carbon content and potental mineralization as affected by tillage and texture[J]. Soil Sci. Soc. Amer . J. , 61:1382~1386. [18]Franzluebbers AJ, Haney RL, Hons FM, et al. 1999. Assessing biological soil quality with chloroform fumigation-incubation:Why subtract a control[J]. Can. J. Soil Sci., 79: 521~528. [19]Golchin A, Oades JM, Skjemstad JO, et al. 1995. The effects of cultivation on the composition of organic matter and structural stability of soils[J]. Aust. J. Soil Res., 33: 975~993. [20]Golchin A, Oades JM, Skjemstad JO, et al. 1994. Study of free and occluded particulate organic matter in soils by solid state 13C CP/MAS NMR spectroscopy and scanning electron microscopy[J]. Aust. J. Soil Res., 32: 285~309. [21]Gregorich EG, Janzen HH. 1996. Storage of soil carbon in the light fraction and macro organic matter[A]. In: Carter MR.(eds). Advances in Soil Science. Structure and Organic Matter Storage in Agricultural Soils[C]. Boca Raton: CRC Lewis Publishers, 167~190. [22]Gregorich EG, Ellert BH. 1993. Light fraction and macroorganic matter in mineral soils[A]. In:Carter MR.(eds). Soil Sampling and Methods of Analysis[C]. Can. Soil Sci. Soc. Roca Raton:Lewis Publishers, 397~407. [23]Gregorich EG. 1994. Towards a minimum data set to assess soil organic matter quality in agricultural soils[J]. Can. J. Soil Sci.,74:367~385. [24]Hassink J, Whitmore AP. 1997. A model of the physical protection of organic matter in soils[J]. Soil Sci. Soc. Amer. J., 61:131~139. [25]Hassink J, Olson KR, Ebethar SA. 1999. Long-term tillage effect on soil chemical properties and organic matter fractions[J]. Soil Sci. Soc. Amer. J. , 63:1335~1341. [26]Haynes RJ, Beare MH. 1997. Influence of six crop species on aggregate stability and some labile organic matter fractions[J]. Soil Biol. Biochem., 29(11-12): 1647~1653. [27]Haynes RJ. 1999. Labile organic matter fractions and aggregate stability under short-term, grass-based leys[J]. Soil Biol.Biochem., 31(13): 1821~1830. [28]Jastrow JD. 1996. Soil aggregate formation and the accrual of particulate and mineral-associated organic matter[J]. Soil Biol.Biochem., 28(4-5): 665~676. [29]Karlen DL, Mausbach JW, Doran RG, et al. 1997. Soil quality:A concept, definition, and framework for evaluation[J]. Soil Sci.Sco. Amer. J. , 61: 4~10. [30]Karlen DA, Cambandella CA. 1996. Conservation strategies for improving soil quality and organic matter storage[A]. In: Lal R.(eds). Struture and Organic Matter Storage in Agriculture Soils[C]. Adv. Soil Sci. Boca Raton, FL: Lewis Publishers, 395~420. [31]Koutika LS, Hauser S, Henrot J. 2001. Soil organic matter assessment in natural regrowth, Pueraria phaseoloides and Mucuna pruriens fallow[J]. Soil Biol. Biochem . , 33:1095~1101. [32]Lehmann J, Cravo MS, Zech W. 2001. Organic matter stabilization in a Xanthic Ferralsol of the central Amazon as affected by single trees: chemical characterization of density, aggregate, and particle size fractions[J]. Geoderma., 99(1-2): 147~168. [33]Lutzow M, Leifeld J, Kainz M, et al. 2002. Indications for soil organic matter quality in soils under different management[J].Geoderma., 105(3-4):243~258. [34]Martens DA. 2000. Plant residue biochemistry regulates soil carbon cycling and carbon sequestration[J]. Soil Biol. Biochem.,32:361~369. [35]Parton WJ, Schimel DS, Cole CV, et al. 1987. Analysis of factors controlling soil organic matter levels in Great Plains grasslands[J]. Soil Sci. Soc. Amer . J . , 51:1173~1179. [36]Paustian K, Andren HH, Janzen R, et al. 1995. Management impacts on carbon storage and gas fluxes(CO2, CH4)in Mid-latitude cropland[A]. In: Lal R.(eds). Advances in Soil Science[C]. Boca Raton, FL: Lewis Publishers. [37]Puget P, Angers DA, Chenu C. 1999. Nature of carbohydrates associated with water-stable aggregates of two cultivated soils[J].Soil Biol. Biochem . , 31(1): 55~63. [38]Sikora LJ, Cambardella CA, Yakivchenko V, et al. 1996. Assessing soil quality by testing organic matter[A]. In: Magdoff FR.(eds). Soil Organic Analysis and Interpretation[C]. Soil Sci.Soc. Amer. Madison. WI. P. 41~50. [39]Six J, Carpentier A, Kessel C, et al. 2001. Impact of elevated CO2 on soil organic matter dynamics as related to changes in aggregate turnover and residue quality[J]. Plant and Soil., 234..27~36. [40]Six J, Elliott ET, Paustian K. 1999. Aggregate and soil organic matter dynamics under conventional and no-tillage systems[J].Soil Soc. Sci. Amer . J . , 63:1350~1358. [41]Six J, Elliott E T, Panstian K, et al. 1998. Aggregation and soil organic matter accumulation in cultivated and native grassland soils[J]. Soil Sci. Soc. Amer. J . , 62:1367~1377. [42]Vanlauwe B, Sanginga N, Merckx R, et al. 1999. Alley cropping in the moist savanna of West Africa: Ⅲ. Soil organic matter fractionation and soil productivity[J]. Agrofor. System., 42:245~264. [43]Vanlauwe B, Sanginga N, Merckx R. 1998. Soil organic matter dynamics after additing of nitrogen 15N labled Leucaena and Dactyladenia residuesin alley cropping systems[J]. Soil Sci.Soo. Amer. J., 62:461~466. [44]Wander MM, Yang XM. 2000. Influence of tillage on the dynamics of loose- and occluded particulate and humidified organic matter fraction[J]. Soil Biol. Biochem., 32:1151~1160. [45]Wander MM, Bollero GA. 1999. Soil quality assessment of tillage impacts in Illinois[J]. Soil Sci. Soc. Amer. J., 63: 961~971. [46]Wander MM, Bidart MG, Aref S. 1998. Tillage impacts on depth distribution of total and particulate organic matter in tree Illinois soils[J]. Soil Sci. Soc. Amer. J. , 62:1704~1711. [47]Yang XM, Kay BD. 2001. Impacts of tillages on total, loose- and occluded-particulate, and humified organic carbon fractions in soils within a field in southern Ontario[J]. Can. J. Soil Sci.,81:149~156. [48]Yang XM, Wander MM. 1999. Tillage effects on soil organic carbon distribution and estimation of C storage[J]. Soil Tillage Res., 52:1~9. |
[1] | ZHU Yuerui, LIN Huiling, ZHANG Yuling, LIANG Yangxue, WEI Yafang, JIA Miao, LI Yuanhua, HU Yunfei, GAO Shuilian. Effects of combined application of potassium and magnesium in ameliorating soil acidification of tea garden. [J]. Chinese Journal of Ecology, 2023, 42(7): 1554-1560. |
[2] | FENG Jiawei, ZHOU Lizhi, XU Wenbin. Effects of nutrient input by foraging wintering waterbirds on the distribution of nitrogen and phosphorus in shoal soil of Shengjin Lake, China. [J]. Chinese Journal of Ecology, 2023, 42(6): 1409-1416. |
[3] | MAO Bing, ZENG Yue, LAI Caiting, YANG Yan, ZHOU Chunhong, LI Zhuoting, XU Qiangsheng, LI Tinghua. Effects of nitrogen reduction fertilization on sugarcane biomass and the concentrations of soil nitrate and ammonium nitrogen. [J]. Chinese Journal of Ecology, 2023, 42(11): 2604-2612. |
[4] | ZHANG Dong, DUAN Hui-zhen, JIANG Hao, GUO Wen-jing, GE Wen-biao, XUE Tian, LI Yu-hong, CHEN Hao, GAO Zhen-peng, HUANG Xing-yu, MA Bing-juan. Changes of dissolved nitrate output due to water-sediment regulation of Xiaolangdi Reservoir in the Yellow River. [J]. Chinese Journal of Ecology, 2022, 41(7): 1307-1315. |
[5] | MA Huan-fei, XIE Meng-yi, HU Han, GUO Yao-xin, REN Cheng-jie, ZHAO Fa-zhu. Effects of stoichiometric characteristics of soil plantlitter on soil nitrogen components in different forests along an elevational gradient of Qinling Mountains. [J]. cje, 2020, 39(3): 749-757. |
[6] | DONG Xin-yuan, GUO Qing-jun, WEI Rong-fei, TAO Zheng-hua, TIAN Li-yan. Research advances and applications on oxygen isotope anomaly in atmospheric nitrate. [J]. cje, 2020, 39(3): 1022-1032. |
[7] | WANG Xing-meng, CHEN Zhi-hao, LI Yong-chun, WU Jia-sen, LI Yong-fu, ZHONG Bin, LIANG Chen-fei, XU Qiu-fang. Effects of different nitrogen forms and ratios on the growth of Phyllostachys edulis and Quercus glauca seedlings. [J]. cje, 2019, 38(9): 2655-2661. |
[8] | LIU Ming-da, WANG Qiu-ning, WEI Jia-lun, ZHANG Jing-ting, LIU Wen-e, WANG Yao-jing. Effects of combined application of vermicompost and chemical fertilizer on yield and quality of Lactuca sativa. [J]. cje, 2019, 38(6): 1760-1766. |
[9] | XIA Yan-meng, LI Cai, LI Si-liang, DI Chong-li, YUE Fu-jun, PENG Hui. Response of nitrogen dynamic change to heavy rainfall events during summer in Haihe River of Tianjin City. [J]. cje, 2018, 37(3): 743-750. |
[10] | ZENG Jie, WANG Zhong-jun, YUE Fu-jun, LI Si-liang, WU Qi-xin, LIU Tao-ze, SI Xia-li. Vertical distribution of nitrogen species and nitrate isotopic composition in wet deposition in karst depression. [J]. cje, 2018, 37(11): 3422-3429. |
[11] | CHE Rong-xiao1,2, DENG Yong-cui3, WU Yi-bo4, ZHANG Jing1, WANG Fang1, TANG Li1,2, LI Lin-feng1, MA Shuang1, LIU Han-ke1, ZHAO Xing1, WANG Yan-fen1, HAO Yan-bin1, CUI Xiao-yong1*. Relationships between biological nitrogen fixation and available nitrogen at scales from molecular to community level. [J]. cje, 2017, 36(1): 224-232. |
[12] | YE Li-sha, CHEN Shuang-lin*. Effects of nitrogen forms and ratios on photosynthetic characters and enzyme activities in nitrogen metabolism of Phyllostachys violascens. [J]. cje, 2016, 35(9): 2355-2360. |
[13] | SU Yu-qin1,2, LIU He-ming1,2, ZHENG Ze-mei1,2*, LIN Li1,2, LI Bin-bin1,2, WANG Xi-hua1,2. Effects of N and P addition on soil available nitrogen and pH in a subtropical forest. [J]. cje, 2016, 35(9): 2279-2285. |
[14] | WU Hao-hao1,2, XU Xing-kai1*, DUAN Cun-tao1, LI Tuan-sheng3, CHENG Wei-guo4. Effect of carbon and nitrogen addition on nitrous oxide flux during thawing of frozen temperate forest soils with different moisture levels. [J]. cje, 2016, 35(7): 1807-1818. |
[15] | LI Jian-ping1, OU Jiang1,2, SONG Xiao-yan1, DENG Chang-chun1, ZHANG Yan1, ZHANG Jian1, GAO Shun1**. Seasonal variations of soil available nitrogen and nitrogen transformation enzyme activities in forest gaps of Pinus massoniana plantations. [J]. cje, 2015, 34(9): 2598-2604. |
Viewed | ||||||
Full text |
|
|||||
Abstract |
|
|||||