Chinese Journal of Applied Ecology ›› 2005, Vol. 16 ›› Issue (10): 1976-1982.
Previous Articles Next Articles
ZHANG Xudong, PENG Zhenhua, QI Lianghua, ZHOU Jinxing
Received:
2004-10-28
Revised:
2005-02-28
Online:
2005-10-15
Published:
2005-10-15
CLC Number:
ZHANG Xudong, PENG Zhenhua, QI Lianghua, ZHOU Jinxing . Research advances in ecosystem flux[J]. Chinese Journal of Applied Ecology, 2005, 16(10): 1976-1982.
[1] Anderson DE, Verma SB, Rosenberg NJ. 1984. Eddy correlation measurements of CO2, latent heat, and sensible heat fluxes over a crop surface. Boundary-Layer Meteorol, 29: 263~272 [2] Aubinet M, Grelle A, Ibrom A, et al. 1999. Estimates of the annual net carbon and water exchange of European forests: The EUROFLUX methodology. Adv Ecol Res, 30:113~176 [3] Baldocchi D, Falge E. 1998. A report from the Polson FLUXNET Workshop. FLUXNET Workshop, Polson Montana [4] Baldocchi D, Olson R. 1999. FLUXNET: A challenge that is becoming reality. IGBP Global Change Newsletter, 37:15~17 [5] Baldocchi D, Valentini R. 1996. The IGBP-BAHC global flux network initiative (FLUXNET): Current status and perspectives.IGBP Global Change Newsletter, 28:14~16 [6] Bowen IS. 1926. The ratio of heat losses by conductance and by evaporation from any water surface. Phys Rev, 27:779~787 [7] CEYSN(中国生态系统统研究网络), CFLUXO(中国通量观测网络项目办公室). 2004. The Brief Introduction of China Terrestrial Ecosystem FLUX Observe & Study Network. 1~2 [8] Denmead OT. 1983. Micrometeorological methods for measuring gaseous losses of nitrogen in the field. In: Freney JR, Simpson FR,eds. Gaseous Loss of Nitrogen from Plant-Soil Systems. The Haue:Martinus Nijhoff/Dr W. Junk. 133~157 [9] Du R(杜睿), Chen G-X(陈冠雄). 1997.The effect of different stocking rate on greenhouse gases of N2O and CH4 fluxes from grazing grassland ecosystem. J Henan Univ (Nat Sci)(河南大学学报·自然科学版), 27 (2): 79~85 (in Chinese) [10] DuR(杜睿),ChenG-X(陈冠雄),LüD-R(吕达仁),et al.1997. The primary research in situ measurements of N2O and CH4 fluxes from the Inner Mongolia grassland ecosystem. Climate Environ Res(气候与环境研究), 2(3):264~272 (in Chinese) [11] DuR(杜睿),LüD-R(吕达仁),WangG-C(王庚辰),et al.2003. The effect of temperature on grassland soil N2O releasing in typical Inner Mongolia. Nat Sci Adv (自然科学进展), 13 (1): 64~68 (in Chinese) [12] DuR(杜睿),WangG-C(王庚辰),LüD-R(吕达仁).1998.Study on the mechanism of N2O production in typical grassland soils of Inner Mongolia. China Environ Sci (中国环境科学), 6 (4): 306~311(in Chinese) [13] DuR(杜睿),WangG-C(王庚辰),LüD-R(吕达仁),et al.2002. In situ measurements of CO2 flux in grassland ecosystem by closed chamber technique. Acta Ecol Sin (生态学报), 22 (12):2167~2174(in Chinese) [14] Du R(杜睿),Zhou Y-G(周宇光), Wang G-C(王庚辰), et al.2003. The effect of soil water on grassland N2O releasing process in typical temperate zones. Nat Sci Adv (自然科学进展), 13 (9): 939~945 (in Chinese) [15] Dyer AJ. 1974. A review of flux-profile relationships. BoundaryLayer Meteorol, 7: 363~372 [16] Falge E, Olson RJ, Tenhunen J. 2000. A perspective on the extension of FLUXNET by Asiaflux. In:CGER eds. Procedings of International Workshop for Advanced Flux Network and Flux Evaluation. Hokkaido, Japan. [17] Finnigan J J, Leuning R. 2000. Long-term flux measurements-co-ordinate system and averaging. In: CGER eds. Proceedings of International Workshop for Advanced Flux Network and Flux Evaluation.Sapporo, Japan: Hokkaido University. 51~56 [18] Fowler D, Duyzer JH. 1989. Micrometeorological techniques for the measurement of trace gas exchange. In:Andereae MO, Schimel DS,eds. Exchange of Trace Gases Between Terrestrial Ecosystems and the Atmosphere. Chichester:John Wiley & Sons. 189~207 [19] Fujinuma Y, Takada M, Tashiro K, et al. 2001. International Workshop for Advanced Flux Network and Flux Evaluation Proceedings. Tsukuba: National Institute for Environmental Studies [20] Han W-Y(韩舞鹰), Wang M-B(王明彪), Wang H-K(王汉奎),et al. 1994. The vertical carbon flux of epipelagic water in the Nansha area of the South China Sea. Oceanol Limnol Sin (海洋与湖沼), 25 (3): 345~348 (in Chinese) [21] Huang G-H(黄国宏), Chen G-X(陈冠雄), Wu J(吴杰), et al.1995. N2O and CH4 fluxes from typical upland fields in Northeast China. Chin J Appl Ecol (应用生态学报), 6 (4): 383~386 (in Chinese) [22] Law BE, Ryan MG, Anthoni PM. 2000. Measuring and modeling seasonal variation of carbon dioxide and water vapor exchange of a Pinus ponderosa forest subjected to soil water deficit. Global Change Biol, 6: 613~630 [23] Lee X. 1998. On micrometeorological observation of surface-air exchange over tall vegetation. Agric For Meteorol, 91:39~49 [24] Lei X-E(雷孝恩), Tian R-M(田瑞明), Han Z-W(韩志伟), et al.1995. An experimental study on exchange characteristics of momentum in the plant canopy layer. Sci Atmos Sin (大气科学), 19(6) :747~754(in Chinese) [25] Lindroth A, Grelle A, Moren AS. 1998. Long-term measurements of boreal forest carbon balance reveal large temperature sensitivity.Global Change Biol, 4: 443~450 [26] Liu S-H(刘树华), Ma Y-M(麻益民). 1997.The characteristics of CO2 concentration and flux, turbulence fluxes in the near surface layer over the wheat field. Acta Meteorol Sin (气象学报), 55(2):187~199(in Chinese) [27] Lloyd J, Taylor JA. 1994. On the temperature dependence of soil respiration. Fun Ecol, 8: 315~323 [28] Ma Y-M(马耀明), Wang J-M(王介民), Zhang Q-R(张庆荣), et al. 1997. The analysis of turbulent fluxes transfer characteristic over Nansha Sea Region. Pla Meteorol (高原气象), 16(1): 45~51(in Chinese) [29] Malhi Y, Baldocchi DD, Jarvis PG. 1999. The carbon balance of tropical, temperate and boreal forests. Plant Cell Environ, 22: 715~740 [30] Monteith JL, Szeicz G. 1960. The carbon dioxide flux over a field of sugar beet. Q J Roy Meteorol Soc, 86:205~214 [31] Ninomiya I, Hozumi K. 1981. Respiration of forest trees 1. Measurement of respiration of Pinus densithunbergii UYEKI by an enclosed standing tree method. J Jpn For Soc, 63: 8~18 [32] Pacala SW, Hurtt GC, Baker D, et al. 2001. Consistent land-and atmosphere-based U. S. carbon sink estimates. Science, 292:2316~2320 [33] Qi Y-C(齐玉春),LuoJ(罗辑),Dong Y-S(董云社).2002.The emission of greenhouse gases (N2O and CH4)from forest soils in Gongga mountainous dark coniferous forest. Chin Sci (Series D)(中国科学·D缉), 32(11): 934~941 (in Chinese) [34] Qu S-H(曲绍厚), Wang S(王赛). 1996.Some characteristics of the transfer of the turbulent fluxes during the westerly wind burst over the Western Pacific Tropical Ocean. Sci Atmos Sin (大气科学), 20(2): 188~194(in Chinese) [35] Raupach MR. 1988. Canopy transport processes. In: Steffen WL,eds. Flow and Transport in the Natural Environment:Advances and Applications. Berlin : Springer-Verlag. 95~97 [36] Schulze ED, Uoyd J, Kelliher FM, et al. 1999. Productivity of forests in the Eurosiberia boreal region and their potential to act as a carbon sink-A synthesis. Global Change Biol, 5 (6): 703~722 [37] Starr D, Olson RJ, Baldocchi D, et al. 1999. FLUXDIS: A global flux data and information system to support EOS product validation. Progress Report to NASA. NASA Goddard Space Flight Center. [38] Sun W-G(孙卫国), Liu S-H(刘树华). 1995. Study on flux profile relations above farmland vegetation. J Nanjing Ins Meteorol (南京气象学院学报), 18(3):404~409(in Chinese) [39] SunX-Y(孙向阳),QiaoJ(乔杰),TanX(谭笑). 2001. Flux of carbon dioxide(CO2)in temperate forest soils. Chin J Northeast Silv Univ (东北林业大学学报), 29 (1): 34~39 (in Chinese) [40] Sun X-Y(孙向阳),Xu H-C(徐化成).2001.Emission flux of nitrous oxide from forest soils in Beijing. Sci Silv Sin (林业科学), 37(5) :57~63(in Chinese) [41] Valentini R, Matteucci G, Dolman AJ, et al. 2000. Respiration as the main determinant of carbon balance in European forests. Nature, 404:861~865 [42] Wang G-C(王庚辰). 1997. A view on measurement methods for greenhouse gases emission from terrestrial ecosystem. Climate Environ Res(气候与环境研究), 2(3):251~263(in Chinese) [43] Wang G-C(王庚辰),Du R(杜睿), Wang Y-F(王艳芬), et al.1998. Characteristics of N2O and CH4 fluxes and their seasonal variations from Inner Mongolia grassland. Acta Agrestia Sin (草地学报), 6(4) :306~311(in Chinese) [44] Wang W-J(王文杰),Shi F-C(石福臣), Zu Y-G(祖元刚), et al.2002. Construction and development of CO2 flux networks on terrestrial ecosystem. Chin J Northeast For Univ (东北林业大学学报), 30(4): 57~61(in Chinese) [45] Wang W-J(王文杰), Yu J-H(于景华), Mao Z-J(毛子军), et al.2003. Study and research advance in forest CO2 flux. Chin J Ecol (生态学杂志), 22(5): 102~107(in Chinese) [46] Wang X-K(王效科), Zhuang Y-H(庄亚辉), Li C-S(李长生).2001. The distribution pattern of N2O emission from agricultural soil in China. Acta Ecol Sin (生态学报), 21 (8): 1225~1231 (in Chinese) [47] Wang Y-F(王艳芬),Ji B-M(纪宝明),Chen Z-Z(陈佐忠), et al.2000. Preliminary results of a study on CH4 flux in Xilin river basin steppe under different grazing intensities. Acta Phytoecol Sin (植物生态学报), 24 (6): 693~696 (in Chinese) [48] Wang Y-F(王艳芬),Ma X-Z(马秀枝),Ji B-M(纪宝明), et al.2003.Diurnal and seasonal variation in methane and nitrous oxide fluxes in meadow steppe of Inner Mongolia. Acta Phytoecol Sin (植物生态学报), 27(6) :792~796(in Chinese) [49] Xiong Z-Q(熊正琴), Xing G-X(邢光熹), Shen G-Y(沈光裕), et al. 2002. Dissolved N2O concentrations and N2O emissions from aquatic systems of lake and river in Taihu Lake region. Environ Sci (环境科学), 23(6) :26~30(in Chinese) [50] Xu M, BeBoase TA, Qi YA. 2000. Simple technique to measure stem respiration using a horizontally oriented soil chamber. Can J For Res, 30:1555~1560 [51] Xu X-B(徐晓斌), Bingemer HG, Georgii HW, et al. 1996. On the exchange of carbonyl sulfide(COS)between the atmosphere and a forest ecosystem in Central Europe. Acta Meteorol Sin (气象学报), 54(3) :357~364(in Chinese) [52] Yamamoto S, Murayama S, Saigusa N, et al. 1999. Seasonal and inter-annual variation of CO2 flux between a temperate forest and the atmosphere in Japan. Tellus, 51B: 401~413 [53] Yang X-G(杨晓光), Yu H-N(于沪宁). 1998. A study on CO2 flux density and water use efficiency of crop community in a field ecosystem. Chin J Progr Geogr(地理科学进展), 17(4): 16~24(in Chinese) [54] Yu K-W(于克伟),Chen G-X(陈冠雄), Yang S-H(杨思河), et al. 1995. Role of several upland crops in N2O emission from farmland and its response to environmental factors. Chin J Appl Ecol (应用生态学报), 6(4) :387~391(in Chinese) [55] Zeng J-H(曾江海),Wang Z-P(王智平),Zhang Y-M(张玉铭), et al. 1995. Approximate calculation on the emission flux and sum of soil N2O in a wheat and maize rotation system. Chin J Environ Sci (环境科学), 16(1) :32~36(in Chinese) [56] Zhang M(张明), Wang T-J(王体健), Zhang Y(张艳), et al.2003. Observational study on atmospheric sulfur deposition to farmland ecosystem. Sci Meteorol Sin (气象科学), 23(3) :263~272(in Chinese) [57] Zhang Y-Q(张永强), Liu C-M(刘昌明), Shen Y-J (沈彦俊), et al. 2001. Transitional calculation on carbon dioxide flux over agroecosystem. Chin J Appl Ecol (应用生态学报), 12 (5): 726~730(in Chinese) [58] Zhou Y-R(周玉荣), Yu Z-L(于振良), Zhao S-D(赵士洞). 2000.Carbon storage and carbon budget of major Chinese forest types.ActaPhytoecol Sin (植物生态学报), 24(5): 518~522 (in Chinese) |
[1] | WANG Jin, ZHOU Guangsheng, HE Qijin, ZHOU Li. Phenological characteristics of net ecosystem carbon exchange of Stipa krylovii steppe in Inner Mongolia, China and its remote sensing monitoring [J]. Chinese Journal of Applied Ecology, 2024, 35(3): 659-668. |
[2] | LIANG Huaqiu, SHEN Menghan, SHAO Ming, YAO Peng. Construction of carbon sequestration ecological network in Linyi City based on supply and demand of ecosystem service [J]. Chinese Journal of Applied Ecology, 2024, 35(3): 759-768. |
[3] | LIANG Shihao, LI Wen, GAO Yu, LIU Baozhu. Correlations between ecosystem service value and landscape ecological risk and its spatial heterogeneity in Jilin Province, China [J]. Chinese Journal of Applied Ecology, 2024, 35(3): 769-779. |
[4] | CAI Lulu, SUN Shoujia, SHI Guangyao, DU Lingtong, NI Xilu, ZHANG Jinsong, MENG Ping. Relationship between negative air ion and PM2.5 in Quercus variabilis under natural conditions [J]. Chinese Journal of Applied Ecology, 2024, 35(2): 347-353. |
[5] | LU Chang, CAI Xueqin, HAO Canshu, LIU Yuzhen, WANG Zhiyu, MA Ya'nan. Ecosystem service tradeoff and synergistic relationship in the Yellow River Delta High-Efficiency Eco-Economic Zone [J]. Chinese Journal of Applied Ecology, 2024, 35(2): 457-468. |
[6] | YU Haixia, WANG Yuxiao. Spatio-temporal variations of ecosystem service value and its spatial heterogeneity mechanism in the Dongjiang River Basin, China [J]. Chinese Journal of Applied Ecology, 2023, 34(9): 2498-2506. |
[7] | QI Yuting, ZHANG Ping, LIU Lei, MA Xuenan, WANG Huan, ZHAO Juan. Multi-scenario optimization of land use structure and prediction of ecosystem service value in Guanzhong Plain urban agglomeration [J]. Chinese Journal of Applied Ecology, 2023, 34(9): 2507-2517. |
[8] | ZHAO Yueqin, MA Xiujing, ZHAO Wanjing, ZHANG Zhijun, SUN Xiaoxin. Impacts of reclamation marsh restoration on greenhouse gas emission in the Sanjiang Plain, China [J]. Chinese Journal of Applied Ecology, 2023, 34(8): 2142-2152. |
[9] | KONG Dongyan, YANG Lingfang, DIAO Jingwen, GUO Peng. Meta-analysis on the effects of nitrogen deposition on soil N2O flux in different habitats [J]. Chinese Journal of Applied Ecology, 2023, 34(8): 2171-2177. |
[10] | LIU Jiani, ZHAI Shuijing, QIU Siting, YU Xinhui, WANG Sai. Silicon composition and stoichiometric ratios with other nutrients in the lower Minjiang River, Southeast China [J]. Chinese Journal of Applied Ecology, 2023, 34(8): 2205-2214. |
[11] | XIONG Xinying, MENG Mei. Regionalization and optimization strategy of ecological management in Xinjiang, China based on supply-demand relationship and spatial flow of ecosystem services [J]. Chinese Journal of Applied Ecology, 2023, 34(8): 2237-2248. |
[12] | BA Xiaobo, SUI Xin, LIU Mingda, XIE Hongtu, LIANG Chao, BAO Xuelian. Ecosystem service value of conservation tillage with cover crop-maize intercropping in the black soil region of Northeast China [J]. Chinese Journal of Applied Ecology, 2023, 34(7): 1883-1891. |
[13] | CHEN Honglian, LI Rui, ZHANG Yushan, WU Qinglin, YUAN Jiang, GAO Jiayong. Comparison of ecosystem health in different geomorphic regions of Chishui River Basin, Southwest China [J]. Chinese Journal of Applied Ecology, 2023, 34(7): 1912-1922. |
[14] | HUANG Qingyang, XIE Lihong, CAO Hongjie, WANG Limin, YANG Fan, WANG Jifeng, LIU Yingnan, NI Hongwei. Effects of bacteria on early-stage litter decomposition in Wudalianchi volcanic forest [J]. Chinese Journal of Applied Ecology, 2023, 34(7): 1941-1948. |
[15] | PANG Danbo, WU Mengyao, ZHAO Yaru, YANG Juan, DONG Liguo, WU Xudong, CHEN Lin, LI Xuebin, NI Xilu, LI Jingyao, LIANG Yongliang. Soil microbial community characteristics and the influencing factors at different elevations on the eastern slope of Helan Mountain, Northwest China [J]. Chinese Journal of Applied Ecology, 2023, 34(7): 1957-1967. |
Viewed | ||||||
Full text |
|
|||||
Abstract |
|
|||||