参考文献/References:
[1] LIETH H, WHITTAKER R H. Primary Productivity of the
Biosphere [M]. New York: SpringerˉVerlag, 1975.
[2] 胥辉,张会儒.林木生物量模型的研究[M]. 昆明:云南科技出
版社.2002.
[3] KITTERGE J. Estimation of amount of foliage of trees and
shrubs[J]. J. Forest, 1944 (42):905ˉ912.
[4] 冯宗炜,陈楚莹,张家武.湖南全国地区马尾松林生物量的测定
[J].林业科学,1982,18(2):127ˉ134.
[5] 李文华, 邓坤枚, 李飞.长白山主要生态系统生物产量的研究
[C]//中国科学院长白山森林生态系统定位站主编.森林生态
系统研究(第二卷).北京:中国林业出版社,1981:34ˉ50.
[6] 胥辉.一种生物量模型构建的新方法[J].西北农林科技大学学
报:自然科学版,2001, 29(3):35ˉ40.
[7] 冯宗炜,王效科,吴刚.中国森林生态系统的生物量和生产力
[M].北京:科学出版社,1999.
[8] NELSON B W, MESQUITA R, PEREIRA, J L G, et al. Alˉ
lometric regressions for improved estimate of secondary forest
biomass in the central Amazon [J]. For. Ecol. Manage,
1999, 117(1/3):149ˉ167.
[9] KETTERINGS Q M, COE R, NOORDWIJK M V, et al. Reˉ
ducing uncertain in use of allometric biomass equation for preˉ
dicting aboveˉground biomass in the mixed secondary forests
[J]. For. Ecol. Manage, 2001, 146: 199ˉ209.
[10] 吕晓涛,唐建维,何有才,等. 西双版纳热带季节雨林的生物
量及其分配特征[J]. 植物生态学报, 2007, 31(1):11ˉ22.
[11] 刘兴良, 刘世荣,宿以明,等. 巴郎山川滇高山栎灌丛地上生
物量及其对海拔梯度的响应[J]. 林业科学, 2006,42(2): 1ˉ
7.
[12] PARRESOL B R, Assessing tree and stand biomass: a reˉ
view with examples and critical comparisons[J]. For. Sci.,
1999, 45(4): 573ˉ593.
[13] 唐守正,张会儒,胥辉. 相容性生物量模型的建立及其估计方
法研究[J].林业科学,2000,36(1):19ˉ27.
[14] CUNIA T,B R D. Forcing additivity of biomass tables:
some empirical results [J]. Can. J. For. Res, 1984, 14(3):
=================================.62.=================================
376ˉ384.
[15] CUNIA T,BRIGGS R D. Forcing additivity of biomass taˉ
bles: use of the generalized least squares method [J]. Can.
J. For. Res., 1985, 15(1):23ˉ28.
[16] WHITE J F, GOULD S J.
Interpretation of the Coefficient in
the Allometric Equation [J].The American Naturalist,
1965, 99:5ˉ18.
[17] WOODWELL G M, WHITAKER R H, REINERS W A, et
al. The biota and the world carbon budget [J]. Science,
1978, 199:141ˉ146.
[18] FANG J Y, CHEN A P , PENG C H, et al. Changes in forˉ
est biomass carbon storage in China between 1949 and 1998
[J]. Science, 2001, 292:2 320ˉ2 322.
[19] FANG J Y, WANG G G, LIU G H, et al. Forest biomass of
China: an estimate based on the biomassˉvolume relationship
[J]. Ecol. Appl, 1998, 8:1 984ˉ1 991.
[20] BROWN S, LUGO A E. The storage and production of orˉ
ganic matter in tropical forest and their role in the global carˉ
bon cycle [J]. Biotropica, 1982, 14:161ˉ187.
[21] 方精云,刘国华,徐嵩龄.中国森林植被生物量和净生产力
[J].生态学报.1996,16(4):497ˉ508.
[22] BROWN S, LUGO A E. Biomass of tropical forests: a new
estimate based on forest volumes [J]. Science, 1984, 223:
1290ˉ1293.
[23] ZHOU G S, WANG Y H, JANG Y L,el a1. Estimating bioˉ
mass and net primary production from forest inventory data:
A case study of China's Larix forests[J].For. Ecol. Manage,
2002, 169(2) :149ˉ157.
[24] 王玉辉,周广胜,蒋延玲,等. 基于森林资源清查资料的落叶
松林生物量和净生长量估算模式[J]. 植物生态学报,2001,
25(4):420ˉ425.
[25] 赵敏,周广胜.基于森林资源清查资料的生物量估算模式及其
发展趋势[J].应用生态学报,2004, 15(8):1 468ˉ1 472.
[26] KAUPI P E, MIELIKINEN K, KUNSELA K. Biomass and
carbon budget of European forests1971 to 1990[J]. Science,
1992, 256:70ˉ84.
[27] TURNER D P, KOEPPER G J, HARMON M E, et al. A
carbon budget for forests of the conterminous United States
[J]. Ecol. Appl., 1995, 5(2): 421ˉ436.
[28] BROWN S, LUGO A E. Aboveground biomass estimates for
tropical moist forests of Brazilian Amazon [J]. Interciencia,
1992, 17: 8ˉ18.
[29] SCHROEDER P, BROWN S. MO J, et al. Biomass estimaˉ
tion for temperate broadleaf forests of the United States using
inventory data [J]. For. Sci,1997, 43: 424ˉ434.
[30] 方精云,陈安平,赵淑清,等.中国森林生物量的估算:对Fang
等Science一文(Science,2001,291:2320ˉ2322)的若干说明
[J].植物生态学报,2002,26(2):243ˉ249.
[31] FANG J Y,WANG Z M. Forest biomass estimation at reˉ
gional and global levels, with special reference to China's forˉ
est biomass [J]. Ecol. Res, 2001,16: 587ˉ592.
[32] 冯仲科,罗旭,石丽萍.森林生物量研究的若干问题及完善途
径[J].世界林业研究,2005, 18(3):25ˉ28.
[33] 陈尔学.合成孔径雷达森林生物量估测研究进展[J].世界林
业研究,1999,12(6):18ˉ23.
[34] DONG J R, KAUFMANN R K, MYNENI R B, et al. Reˉ
mote sensing estimates of boreal and temperate forest woody
biomass: carbon pools, sources, and sinks [J].Remote Sens.
Environ., 2003, 84:393ˉ410.
[35] TOMPPO E, NILSSON M, ROSENGREN M, et al. Simulˉ
taneous use of LandsatˉTm and IRSˉ1C WiFS data in estimaˉ
ting large area tree stem volume and aboveground biomass
[J]. Remote Sens. Environ, 2002,82:156ˉ171.
[36] 郭志华,彭少麟,王伯荪. 利用TM数据提取粤西地区的森林
生物量[J].生态学报,2002,22(11):1 832ˉ1 840.
[37] 陈利军,刘高焕,励惠国. 中国植被净第一性生产力遥感动态
监测[J].遥感学报,2002 ,6(2):129ˉ135.
[38] 郑光,田庆久,陈镜明,等. 结合树龄信息的遥感森林生态系
统生物量制图[J].遥感学报, 2006, 10(6): 932ˉ940.
[39] FOODY G M, CUTLER M E, MCMORROW, et al. Mapˉ
ping the biomass of Bornean tropical rain forest from remotely
sensed data[J]. Global Ecology & Biogeography, 2001, 10
(4): 379ˉ387.
[40] FOODY G M, BOYD D S, CUTLER M E, Predictive relaˉ
tions of tropical forest biomass from Landsat TM data and
their transferability between regions[J]. Remote Sens. Enviˉ
ron, 2003, 85(4): 463ˉ474.
[41] 国庆喜,张锋, 基于遥感信息估测森林的生物量[J]. 东北林
业大学学报, 2003,31(2): 13ˉ16.
[42] 戴小华,余世孝.遥感技术支持下的植被生产力与生物量研究
进展[J].生态学杂志,2004,23 (4):92ˉ98.
[43] HAME T, SALLI A, ANDERSSON K, et al. A new methˉ
odology for the estimation of biomass of conifer dominated
boreal forest using NOAA AVHRR data [J]. Int. J. Remote
Sensing, 1997, 18 (15): 3 211ˉ3 243.
[44] 徐新良,曹明奎. 森林生物量遥感估算与应用分析[J]. 地球
信息科学, 2006,8(4): 122ˉ128.
[45] 冯险峰.GIS支持下的中国陆地生物量遥感动态监测研究
[D].西安:陕西师范大学,2000.
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