Chinese Journal of Applied Ecology ›› 2001, Vol. ›› Issue (2): 309-314.
Previous Articles Next Articles
HOU Ping, PAN Cunde
Received:
1999-12-27
Revised:
2000-05-11
CLC Number:
HOU Ping, PAN Cunde . Coarse woody debris and its function in forest ecosystem[J]. Chinese Journal of Applied Ecology, 2001, (2): 309-314.
[1] Caldwell RS et al. 1996. Macroinvertebrates and their relationship te coarse woody debris: with special reference to land snails. General Technical Report of Southern Research Station, USDA Forest Service,NO. SE-94: 49~54 [2] Ceorg F et al. 1996. Natural Woodland-Ecology and Conservation inNorthern Temperate Regions. Cambridage: Cambridge University Press. [3] ChenH(陈华),Harmon ME. 1992. Dynamic study of coarse woody debris in temperate forest ecosystems. Chin J Atppl Ecol (应用生态学报),3(2):99~104 [4] Chen H(陈华)et al. 1991. Preliminary study on tree death of korean pine-deciduous mixed forest of Chanabai mountain. Chin J Anppl Ecol(应用生态学报),2(1) :89~91(in Chinese) [5] Christensen DL et al. 1996. Impacts of lakeshore residential development on coarse woody debris in north temperate lakes. Ecol Appl, 6(4):1143~1149 [6] Doloff CA et al. 1996. Large woody debris, fish habitat, and historical land use. General Technical Report of Southern Research Station, USDA Forest Service, NO. SE,-94:130~138 [7] Frangi JL et al. 1997. Decomposition of nothofagus fallen woody debris in forests of Tierra del Fuego Argentina. Can J For Res, 27(7): 1095~1102 [8] Guby NAB,Dobbertin M.1996.Biodiverdity implications of changes in the quantity of dead organic matter in managed forests.Environ Rev,4(3):232~265 [9] Hao Z-Q(郝占庆)et al.1989.An overview on the function of coarse 6(3):179~183(in Chinese) [10] Hanula JL et al.1996.Relationship of wood-feeding insects and coarse USDA Forest Service,NO.SE-94:55~610 [11] Harmon ME,Chen H.1991.Coarse woody debris dynamics in two old-growth ecosystems,Bioscience ,41(9):604~610 [12] Harmon ME et al.1987.Coarse woody debris in mixed-conifer forest,Sequoia National Park,California.Can J For Res,17(10):1265-1272 [13] Harmon ME et al.1986.Ecology of Coarse woody debris in temperate ecosystems.Adv Ecol Res,15:133-302 [14] Hendrix PF et al.1996.Earthworms,biodiversity ,and coarse woody debris in forest ecosystems of the southeastern USA .General Technical Report of Southern Research Station ,USDA Forest ,No SE-94:43-48 [15] Hofgaard A et al.1993.50 years of change in a Swedish Boreal old-growth Picea abies forest.J Veg Sci,4(6):773-782 [16] Huston MA et al.1996.Models and management implications of coarse woody debris impacts on bildiverssity.General Technical Report of Southern Research Station ,USDA Forest Service No .SE-94:139-143 [17] Johnston JM et al.1996.The significance of coarse wody debris for the diversity of soil mites.General Report of Southern Research Sta-tion ,USDA Forest Service,NO.SE-94:82-87 [18] Jurgensen ME et al.1997.Impacts of timber harvesting on soil organicmatter,nitrogen,Productivity,and health of inland northewest forests.For Sci,43(2):234-251 [19] Kimmins H.1993.Mass and nutrient content of woody debris and ern [20] Kimmins H.1996.Trans.Zhu C-Q(朱春全) et al.1995.Balanceable principles-Forestry and Environment.Beijing:China Environmental Science Press.155~164(in Chinese) [21] Lanham JD et al.1996.Influences of coarse woody debris on virds in southern forests.General Technical Report of Southern Research Station,USDA Forest Service,NO.SE-94:101~107 [22] Lear DH van et al. 1995.Coarse woody debris considerations in southern silviculture.Proceedings of te English Biennial Southern Silviculture Research Conference,Auburn,Alabama,1-3 November,1994.General Technical Report of Soutern Research Satin,USDA Forest Service.NO.Se-94:1,63~72 [23] Lear DH van et al. 1996.Dynamics of coarse woody debris in southern forest ecosystems.General Technical Report Southern Reearch Station,USDA Forest SERVICE,NO.SE-94:10~17 [24] Liu W-Y(刘文耀).1995.Studies on the litterfall and coarse woody debris in mid-mountain humid evergreen brodadleved forest on Ailao Mountains.Acta Bot Sin(植物学报),37(10):807~814(in Chinese) [25] Loeb SC et al.1996.The role of coarse woody debris in the ecology of Southeastern Mammals. General Technical Report of Southern Research station,USDA Forest Service,No.SE-94:108~118 [26] Macmillan PC.1988.Decomposition of coarse woody debris in an oldgrowth indiana forest.Can J For Res,18(11):1353~1362 [27] Marra JL,Edmonds RL.1996.Coarse woody debris and soil respiration in a clearcut on the Olympic Peninsula,Washington,USA.Can J For Res,26(8):1337~1345 [28] Marra JL,Edomonds RL.1994.Coarse woody debris and forest floor respiration in old-growth coniferous forest on the Olympic Peninsula,Washington,USA.Can J For Res,24(9):1811~1817 [29] McCarthy BC,Bailey RR.1994.Distribution and abundance of coarse woody debris in a managed forest landscape of the central Appalachians.Can J For Res,21(7):1317~1329 [30] McDade MH et al. 1990.Source distances of coarse woody debris entering small streams in western Oregon and Washington.Can J For Res,20(3):326~330 [31] Muller RN,Liu Y.1991.Coarse woody debries in an old-growth deciduous forest on the cumberland,plateau,Southeastern Kentucky.Can J For Res,21(11);1567~1572 [32] Nakasone F et al.1996.Diversity of lignicolous basidiomgcetes in coarse woody debris.General Technical Report of Southern Research Station,USDA Forest Service,NO.Se-94:35~42 [33] Nakamura F,Swanson FJ.1994.Distribution of coarse woody debris in a mountain stream,western Cascade Range,Oregon.Can J For Res,24(12):2395~2403 [34] Pies TA et al. 1988.Coarse Woody debris in douglas-fir forest of western Oregon and Washington.Ecology,69(6):1689~1702 [35] Rice WD et al. 1997.Woody debris decomposition in the Atchafalaya River Basin of Louisiana following Hurricane Disturbance.Sil Sci Soc Amer J,61(4):1264~1274 [36] Robison EG, Beschta RL.1990a.Characteristics of coarse woody debris for several coastal streams of Souteast Alaska,USA.Can J Fish Aquatic Sci,47(9):1684~1693 [37] Robison EG,Beschta RL.1990b.Identifying trees in riparian areas that can provide coarse woody debris to streams.For Sci,36(3):790~801 [38] Sharitz RR et al. 1996.Coarse woody debris and woody seedling recrutment in southeastern forest.General Technical Report Southern Research Station,USDA Forest Service,NO.Se-94. [39] Stahl G.1998.Transect realascope sampling-a method for the quantification of coarse woody debris.For Sci,44:158~163 [40] Stahl G.1997.Transect realascope sampling for assessing coarse wooody debris:the case of a Pi/2 relascope angle.Scand J For Res,12(4):375~381 [41] Stevens V.1997.The ecological role of coarse woody debris:An overview of the ecological importance of CWD in BC forests. Working Paper Ministry of Forest Research Program. British Columbia.No.30 [42] Stewart GH, Burrows LE. 1994.Coarse woody debris in ood-growth temperate beech (Nothofagus) Forest of New Zealand.Can J For Res,24(10:1989~1996 [43] Sturtevant Br et al. 1997.coarse wody debris as a function of age,stand structure,and disturbance in boreal Newfoundland.Ecol Appl,7(7):702~712 [44] Tyrrell LE, Crow TR.1994.Dynamics of dead wood in old-growth hemlock-hardwood forests of northern Wisconsin and northern Michigan.Can J For Res,24(8):1672~1683 [45] Wallace JB et al. 1996.Influence of coarse woody debris on stream habitats and invertebrate biodiversity.General Technical Report of Southern Research Station,USDA Forest Service NO.SE-94:119~129 [46] Waldrop TA et al.Dynamics of coarse woody debris-A simulation study for two southeastern forest ecosystems.General Technical Report of Southern Research Station.USDA Forest Service,NO.SE-94:18~24 [47] Wei B(魏斌)et al.1996.Theoretical analysis of disturbance in ecology and its application.Chin J Ecol(生态学杂志),15(6):50~54(in Chinese) [48] Wei X et al.1997.Mass and nutrients in woody debris in harvested and wildfire-killed lodgepole pine forests in the central interior of British Columbia.Can J For Res,27(2):148~155 [49] Whigham DF et al.1991.The impact of hurricane gilbert on trees,litter fall,and woody debris in a dry tropical forest in the northeastern Yucatan,Peninsula.Biotropica,23(4a):434~441 [50] Whiles MR et al.1996.Importance of coarse woody debris to southern forest herpetofauna.General Technical Report Southern Research Station,USDA Forest Service NO.SE-94:94~100 [51] Wu J-G(邬建国).1996.Paradigm Shift in Ecology:An Overview.Acta Ecol Sin(生态学报),16(5):449~457(in Chinese) [52] Xu H-Ch(徐化成).1998.Daxingganling Mountains Forests in China.Beijing:Science Press.164~182(in Chinese) [53] Xu H-Ch(徐化成).1996.Landscape Ecology.Beijing:chinese Forestry Press.36~107(in chinese) |
[1] | XIE Lingling, WANG Shaojun, XIAO Bo, WANG Zhengjun, GUO Zhipeng, GUO Xiaofei, LUO shuang, LI Rui, XIA Jiahui, LAN Mengjie, YANG Shengqiu. Effects of ant nests on soil CH4 emissions from Syzygium oblatum communities of a secondary tropical forest [J]. Chinese Journal of Applied Ecology, 2024, 35(3): 678-686. |
[2] | ZHAO Yunge, JI Jingyi, ZHANG Wantao, MING Jiao, HUANG Wanyun, GAO Liqian. Characteristics of spatial and temporal variability in the distribution of biological soil crusts on the Loess Plateau, China [J]. Chinese Journal of Applied Ecology, 2024, 35(3): 739-748. |
[3] | WANG Jianwu, XU Sen, JI Biyong, DU Qun. Effects of topography and stand spatial structure on the diameter at breast height growth of major pioneer tree species of natural broad-leaved mixed forests in Zhejiang Province, China [J]. Chinese Journal of Applied Ecology, 2024, 35(2): 298-306. |
[4] | CAO Xiaomei, MIAO Zheng, HAO Yuanshuo, DONG Lihu. Height-diameter model of broad-leaved mixed forest based on species classification in Maoershan, Northeast China [J]. Chinese Journal of Applied Ecology, 2024, 35(2): 307-320. |
[5] | JIANG Ze, CHEN Jie, TANG Liyu, YU Can, XIE Rugen, HUANG Danling, SU Shunde. Tree parameter extraction in Fokienia hodginsii plantation based on airborne LiDAR data [J]. Chinese Journal of Applied Ecology, 2024, 35(2): 321-329. |
[6] | XIE Jingjin, XU Qiuyue, HE Min, XIA Yun, FAN Yuexin, YANG Liuming. Effects of forest regeneration types on phosphorus fractions of soil aggregates in subtropical forest [J]. Chinese Journal of Applied Ecology, 2024, 35(2): 330-338. |
[7] | LI Jiayu, SHI Xiuzhen, LI Shuaijun, WANG Zhenyu, WANG Jianqing, ZOU Bingzhang, WANG Sirong, HUANG Zhiqun. Effects of stand ages on soil enzyme activities in Chinese fir plantations and natural secondary forests [J]. Chinese Journal of Applied Ecology, 2024, 35(2): 339-346. |
[8] | 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. |
[9] | OUYANG Yiyun, SU Zhangwen, LI Chunhui, ZENG Aicong, GUO Futao. Forest fire risk zoning based on fuzzy logic and analytical network process [J]. Chinese Journal of Applied Ecology, 2024, 35(2): 354-362. |
[10] | CHEN Cai, TANG Guangda, DONG Xiaoquan, XU Songjun. Spatial distribution pattern and correlation of dominant populations in the shrub layer of Fengshui forest in Leizhou Peninsula, China [J]. Chinese Journal of Applied Ecology, 2024, 35(2): 371-380. |
[11] | YUAN Jiayu, Xiong Li, WU Zhiwei, ZHU Shihao, KANG Ping, LI Shun. Characteristics of pine wood nematode disease in Nankang District, Ganzhou, Jiangxi Province, China [J]. Chinese Journal of Applied Ecology, 2024, 35(2): 507-515. |
[12] | WU Dedong, LIU Zhimin, CAO Yu. Shelterbelt construction in the scenario of coordinated development of mountain, river, forest, farmland, lake, grassland, and sandy land ecosystems in semi-arid wind-sand areas: Principles and methods [J]. Chinese Journal of Applied Ecology, 2024, 35(1): 17-24. |
[13] | JI Yongkang, MA Nan, ZHANG Hui, LI Cuihuan, MA Yuandan, WU Qiqian, LI Yan. Effect of seasonal distribution in precipitation on soil nitrogen mineralization in a subtropical forest [J]. Chinese Journal of Applied Ecology, 2024, 35(1): 186-194. |
[14] | WU Xinyang, SHAO Jing, CHEN Xiaoping, LI Jinlong, HU Dandan, ZHONG Quanlin, CHENG Dongliang. Nutrient content and resorption efficiency of leaves of broad-leaved trees along altitudes in Wuyi Mountains, China [J]. Chinese Journal of Applied Ecology, 2023, 34(9): 2305-2313. |
[15] | XU Xiongchao, ZHANG Qianqian, TENG Qiumei, ZHAO Mingshui, LI Yongchun. Rhizosphere effects of moso bamboo and dominant tree species of secondary broadleaved forest on soil organic carbon mineralization [J]. Chinese Journal of Applied Ecology, 2023, 34(9): 2374-2382. |
Viewed | ||||||
Full text |
|
|||||
Abstract |
|
|||||