广西师范大学学报(自然科学版) ›› 2010, Vol. 28 ›› Issue (3): 56-60.

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川西亚高山暗针叶林恢复过程中根系生物量研究

马姜明1,2,3, 刘世荣2, 刘兴良4   

  1. 1.广西师范大学生命科学学院,广西桂林541004;
    2.中国林业科学研究院森林生态环境与保护研究所国家林业局森林生态环境重点实验室,北京100091;
    3.广西环境工程与保护评价重点实验室,广西桂林541004;
    4.四川省林业科学研究院,四川成都610081
  • 收稿日期:2010-04-28 出版日期:2010-09-20 发布日期:2023-02-06
  • 通讯作者: 刘世荣(1962—),男,山东莱州人,中国林业科学研究院研究员,博导。E-mail:liusr@caf.ac.cn
  • 基金资助:
    “十一五”国家科技支撑计划项目(2006BAD03A100302,2006BAD03A0402,2006BAD03A1004);广西教育厅科研项目(200911MS50,200807LX020);广西环境工程与保护评价重点实验室研究基金(桂科能0802K011)

Root Biomass in the Restoration Process of Subalpine Dark Coniferous Forests in Western Sichuan,China

MA Jiang-ming1,2,3, LIU Shi-rong2, LIU Xing-liang4   

  1. 1. College of Life Science,Guangxi Normal University,Guilin Guangxi 541004,China;
    2. Key Laboratory of Forest Ecology and Environment of State Forestry Administration,Institute of Forest Ecology, Environment and Protection,Chinese Academy of Forestry,Beijing 100091,China;
    3. Guangxi Key Laboratory of Environmental Engineering,Protection and Assessment,Guilin Guangxi 541004,China;
    4. Sichuan Academy of Forestry,Chengdu Sichuan 610081,China
  • Received:2010-04-28 Online:2010-09-20 Published:2023-02-06

摘要: 运用空间代替时间的方法对川西亚高山暗针叶林恢复过程中根系生物量的变化及分布格局进行研究。结果表明:无论在低海拔(2 900~3250 m)还是在高海拔处(3 250~3 600 m),随着森林的恢复,根系生物量逐渐增加。在低海拔处,不同恢复时期根系生物量为21.000~51.583 t/hm2;在高海拔处,不同恢复时期根系生物量为20.363~35.316 t/hm2。对于相同林龄的林分,高海拔处根系生物量比低海拔处均有所减少。在低海拔处,10~20 cm土壤层根系生物量最大,而在高海拔处,0~10cm土壤层根系生物量最大。90%以上的根系生物量集中分布在0~30 cm的土壤层。径级>5mm的粗根生物量占根系总生物量的65.0%以上,径级2~5 mm的小根生物量所占比例最小。对于相同林龄的林分,粗根(径级>5 mm)、小根(径级2~5 mm)和细根(径级<2 mm)生物量呈现低海拔处大于高海拔处的趋势。

关键词: 根系生物量, 分布格局, 恢复时期, 亚高山森林, 川西

Abstract: Primary dark coniferous forests,dominated with firs,were cut on a large scale from 1950s to 1980s in subalpine region of western Sichuan,China.At thesame time,native tree species regenerated naturally.As a result,there formed theforests with different restoration period.Roots biomass of forests with different restoration period were investigated in a way of space-for-time substitution.The changes and their distribution patterns of roots biomass were analyzed following forests restoration in western Sichuan.The results showed that roots biomass increased gradually with the restoration of forests whether at lower altitude (2 900~3 250 m) or at higher altitude (3 250~3 600 m).At lower altitude,thefluctuation of roots biomass is between 21.000 and 51.583 t/hm2.While at higheraltitude,the fluctuation of roots biomass is between 20.363 and 35.316 t/hm2.As for the same forests age,roots biomass located at higher altitude is less than that at lower altitude.In lower altitude,the most value of roots biomass is occurred in the soil layer of 10~20 cm,while at higher altitude,which is occurred inthe soil layer of 0~10 cm.The roots biomass in soil layer of 0~30 cm exceeded 90% of total roots biomass.The biomass of coarse roots (>5 mm) exceeded 65.0% among the three diameter classes,while the small roots (2~5 mm) accounted for theleast percentage of total roots biomass.As for the same forests age,there isa trend that more roots biomass located at lower altitude than at higher altitude,whether coarse roots,small roots or fine roots (<2 mm).

Key words: roots biomass, distribution pattern, restoration period, subalpine forests, western Sichuan,China

中图分类号: 

  • S718.54
[1] CRISTINA P M,ALLAN P D.A model to assess restoration of abandonedpasture in Costa Rica based on soil hydrologic features and forest structure[J].Restoration Ecology,2004,12(4):516-524.
[2] ESPELETA J F,CLARK D A.Multi-scale variation in fine-root biomass in a tropical rain forest:a seven-year study[J].Ecological Monographs,2007,77(3):377-404.
[3] 杨玉盛,陈光水,林鹏,等.格氏栲天然林与人工林细根生物量、季节动态及净生产力[J].生态学报,2003,23(9):1719-1730.
[4] 罗东辉,夏婧,袁婧薇,等.我国西南山地喀斯特植被的根系生物量初探[J].植物生态学报,2010,34(5):611-618.
[5] 陈光水,何宗明,谢锦升,等.福建柏和杉木人工林细根生产力、分布及周转的比较[J].林业科学,2004,40(4):15-21.
[6] 张小全,吴可红,DIETER M.树木细根生产与周转研究方法评述[J].生态学报,2000,20(5):875-883.
[7] 宇万太,于永强.植物地下生物量研究进展[J].应用生态学报,2001,12(6):927-932.
[8] 杨丽韫,罗天祥,吴松涛.长白山原始阔叶红松林不同演替阶段地下生物量与碳、氮贮量的比较[J].应用生态学报,2005,16(7):1195-1199.
[9] 杨丽韫,李文华.长白山不同生态系统地下部分生物量及地下C贮量的调查[J].自然资源学报,2003,18(2):204-209.
[10] 张惠良,李兴鹏,顾彩荣,等.地理气候因子对落叶松根系生物量分布的影响[J].内蒙古林业调查设计,2004,27(4):37-41.
[11] SCHENK H J,JACKSON R B.The global biogeography of roots[J].EcologicalMonographs,2002,72(3):311-328.
[12] 邓坤枚,罗天祥,张林,等.云南松林的根系生物量及其分布规律的研究[J].应用生态学报,2005,16(1):21-24.
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