千岛湖风化基岩消落带植被的垂直分布特征

徐高福; 卢刚; 张建和; 李贺鹏; 洪苏州; 柏明娥; 曹南丰; 洪利兴

doi:10.3969/j.issn.1000-2006.201605055

千岛湖风化基岩消落带植被的垂直分布特征

徐高福,卢刚,张建和,李贺鹏,洪苏州,柏明娥,曹南丰,洪利兴

南京林业大学学报（自然科学版） ›› 2017, Vol. 41 ›› Issue (03) : 86-94.

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南京林业大学学报（自然科学版） ›› 2017, Vol. 41 ›› Issue (03) : 86-94. DOI: 10.3969/j.issn.1000-2006.201605055

研究论文

千岛湖风化基岩消落带植被的垂直分布特征

徐高福¹,卢刚²,张建和³,李贺鹏²,洪苏州¹,柏明娥²,曹南丰¹,洪利兴²

作者信息 +

The characteristics of vertical vegetation distribution in hydro-fluctuation zone based on weathered bedrock in the Thousand Island Lake region

XU Gaofu¹,LU Gang²,ZHANG Jianhe³,LI Hepeng²,HONG Suzhou¹, BAI Ming’e², CAO Nanfeng¹,HONG Lixing²

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摘要

【目的】研究自然植被在湖滨消落带的分布规律,为消落带植被修复与重建提供参考。【方法】在千岛湖区风化基岩消落带上采用固定样地调查方法,结合千岛湖水位涨落动态观察,通过物种重要值、聚类分析及其多样性,研究自然植被在海拔98.0～108.9 m的垂直分布特征。【结果】千岛湖水位基本上呈现1—3月为98～100 m的低水位、4—6月逐渐升高至104 m、7—9月为105～106 m的高水位、10—12月再逐渐回落至100 m低水位的年变化动态规律。风化基岩消落带植被的垂直分布与水位的季节性涨落或淹没时间有关,106.0～108.9 m区间为乔灌草植被带,乔木种类主要有木荷(Schima superba)、香樟(Cinnamomum camphora)等; 104.0～105.9 m区间为灌草植被带,主要种类有苦竹(Pleioblastus amarus)、山莓(Rubus corchorifolius)等灌木和大狼杷草(Bidens frondosa)、鼠曲草(Pseudognaphalium affine)等草本; 102.0～103.9 m区间为草本植被带,主要种类为上位灌草植被带出现的毛茛(Ranunculus japonicus)、酸模(Rumex acetosa)、泥胡菜(Hemisteptia lyrata)、狗牙根(Cynodon dactylon)、类芦(Neyraudia reynaudiana)、粉披苔草(Carex pruinosa)等草本,但盖度只有20%左右; 98.0～101.9 m区间为无植被带。植物的多样性自上而下基本呈现上多下少的现象。【结论】千岛湖106.0～108.9 m乔灌草植被带、104.0～105.9 m灌草植被带自然植被的垂直分布和结构特征为消落带植被人工修复与重建提供了物种选择及其结构配置的重要依据; 102.0～103.9 m草本植被带和98.0～101.9 m无植被带是千岛湖风化基岩消落带生态系统极度脆弱的区间带,也是植被修复与重建最难、最重要的区间带。

Abstract

【Objective】A comprehensive understanding of the distribution pattern of vegetation in a hydro-fluctuation zone could provide a strong basis for guiding the restoration and reconstruction of the plant community in this zone. 【Methods】We carried out detailed plant community surveys in the Thousand Island Lake, at several fixed sampling plots on weathered bedrock within the hydro-fluctuation zone. Based on the variation in water level, we analyzed the features of the vertical distribution of natural vegetation within the altitude range of 98.0-108.9 m, using indices of diversity, species importance values, and clustering analyses. 【Results】The water level showed a regular seasonal variation: it was low(98-100 m)from January to March, rose to 104 m during April-June, and reached its maximum(105-106 m)from July to September, followed by a rapid decrease to about 100 m from October to December. The vertical distribution pattern of vegetation in the fluctuation zone was associated with the seasonal variation in water level and flooding time. Tree-shrub-herbaceous vegetation was present in the altitude range from 106.0 to 108.9 m, with the dominant tree species being Schima superba and Cinnamomum camphora. Shrub-herbaceous vegetation existed in the hydro-fluctuation zone from 104.0 to 105.9 m, where Pleioblastus amarus and Rubus corchorifolius were the dominant shrubs and herbs mainly comprised Bidens frondosa and Pseudognaphalium affine. Only herbaceous vegetation, with coverage of approximately 20%, was observed in the low water level zone from 102.0 to 103.9 m, primarily constituted of herbaceous species that also appeared in shrub-herbaceous vegetation, including Ranunculus japonicus, Rumex acetosa, Hemisteptia lyrata, Cynodon dactylon, Neyraudia reynaudiana and Carex pruinosa. Vegetation was entirely absent within the altitude range of 98.0-101.9 m. The plant diversity therefore decreased with descending altitude. 【Conclusion】The characteristics and pattern of vertical distribution of vegetation on weathered bedrock in the hydro-fluctuation zone provides a species pool and potential species configuration for ecological restoration and reconstruction. In addition, the herbaceous vegetation and non-vegetation zones are extremely vulnerable in the hydro-fluctuation vegetation zone in the Thousand Island Lake, and thereby become the most difficult and important areas for ecological restoration and reconstruction.

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徐高福,卢刚,张建和,李贺鹏,洪苏州,柏明娥,曹南丰,洪利兴. 千岛湖风化基岩消落带植被的垂直分布特征[J]. 南京林业大学学报（自然科学版）. 2017, 41(03): 86-94 https://doi.org/10.3969/j.issn.1000-2006.201605055

XU Gaofu,LU Gang,ZHANG Jianhe,LI Hepeng,HONG Suzhou, BAI Ming’e, CAO Nanfeng,HONG Lixing. The characteristics of vertical vegetation distribution in hydro-fluctuation zone based on weathered bedrock in the Thousand Island Lake region[J]. JOURNAL OF NANJING FORESTRY UNIVERSITY. 2017, 41(03): 86-94 https://doi.org/10.3969/j.issn.1000-2006.201605055

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参考文献

[1] 徐高福,卢刚,刘乐群,等.千岛湖消落带湿地植被重建探析[J].浙江林业科技,2014,34(6):89-92.DOI:10.3969/j.issn.1001-3776.2014.06.019. XU G F,LU G, LIU L Q, at al.Review on vegetation construction at water level-fluctuation belt in Thousand Island Lake[J].Journal of Zhejiang Forestry Science and Technology,2014,34(6):89-92.
[2] 周永娟,仇江啸,王姣,等.三峡库区消落带生态环境脆弱性评价[J].生态学报,2010,30(24):6726-6733. ZHOU Y J, QIU J X, WANG J, et al.Assessment of eco-environmental vulnerability of water-level fluctuation belt in Three-Gorges Reservoir area[J].Acta Ecologica Sinca, 2010,30(24):6726-6733.
[3] 吴起鑫,韩贵琳,唐杨.水位变化对湖泊(水库)消落带生态环境影响的研究进展[J].地球与环境,2009,37(4):446-453. WU Q X, HAN G L, TANG Y.Effects of water level fluctuations on ecological environment of lake/reservoir riparian zone: a review[J].Earth and Environment, 2009,37(4):446-453.
[4] 张永祥,蔡德所,易燃.桂林市青狮潭水库消落带生态脆弱性及其影响因子[J].广西师范大学学报(自然科学版),2012,30(4):156-160.DOI:10.3969/j.issn.1001-6600.2012.04.024. ZHANG Y X, CAI D S, YI R.Ecologica fragility and impact factor of water-level-fluctuation of the Qingshitan Reservoir, Guilin,China[J].Journal of Guangxi Nornal University(Natural Science Edition), 2012,30(4): 156-160.
[5] 张光富,王剑伟.三峡库区开县前置库植物多样性及其消落带的生态修复原则[J].南京师大学报(自然科学版),2007,30(3):87-92. ZHAN G F, WANG J W.Studies on plant diversity of pre-dam of Kai County within Three Gorges Reservoir and its rehabilitiation principles[J].Journal of Nanjing Normal University(Natural Science Edition), 2007,30(3):87-92.
[6] 郭泉水,洪明,康义,等.消落带适生植物研究进展[J].世界林业研究,2010,23(4):14-20. GUO Q S, HONG M, KANG Y, et al.Reserch development on hydro-fluctuation belt plant[J].World Forestry Reserch, 2010,23(4):14-20.
[7] THORP J H,COVICH A P.Ecology and classification of north American freshwater invertebrates [M].3rd ed. New York: Academic Press,2009: 22-23.
[8] 徐高福,洪利兴,陈小勇,等.千岛湖区消落带植被恢复初探[J].林业调查规划,2006,31(6):106-108. DOI:10.3969/j.issn.1671-3168.2006.06.025. XU G F, HONG L X, CHEN X Y, et al.Preliminary discussion on vegetation regeneration in declined belt of Thousand-isles Lake area[J].Forest Inventory and Planning, 2006,31(6):106-108.
[9] 吴道圣,张光星,冯黎灵.耐水湿树种在水库消落带(滩地)造林技术[J].湖北林业科技,2008(2):57-58,65.DOI::10.3969/j.issn.1004-3020.2008.02.019. WU D S, ZHANG G X, FENG L L.Afforestation tecnology of water resistant tree species at water level-fluctuation(beach land)[J]. Hubei Forestry Science and Technology, 2008(2):57-58,65.
[10] 冯义龙,先旭东.三峡库区冬季蓄水后石门消落带示范区植物生长情况初报[J].园林科技,2012(3):14-17. FENG Y L, XIAN X D.A preliminary report on the plant growth in the demonstration area of Shimen after winter water storage in the Three Gorges Reservoir Area [J].Journal of Garden Science and Technology, 2012(3):14-17.
[11] 罗韧,王正春,王轶浩.消落区引种栽培水桦、水紫树试验初报[J].重庆林业科技,2012(3):27-30. LUO R, WANG Z C, WANG Y H.A preliminary report on the introduction and cultivation of Betula nigra and Nyssa aquatica at water level-fluctuation Belt [J].Journal of Chongqing Forestry Science and Technology, 2012(3):27-30.
[12] 殷云龙,於朝广,华建峰,等.重庆万州三峡库区消落带中山杉造林试验[J].林业科技开发,2014,28(2):110-114.DOI:10.13360/j.issn.1000-8101.2014.02.030. YIN Y L, YU C G, HUA J F, et al.A trial on the silviculture of Taxodium hybrid ‘Zhongshanshan118’ planted in the hydro-fluctuation belt of the Three Gorges Reservoir within the Wanzhou District area of Chongqing[J]. China Forestry Science and Technology, 2014,28(2):110-114.
[13] 童丽丽,张娟,阮宏华.枫杨幼苗对富营养化水体中总氮总磷的去除效果[J].南京林业大学学报(自然科学版),2011,35(5):139-142.DOI:10.3969/j.issn.1000-2006.2011.05.031. TONG L L, ZHANG J, RUAN H H.Removal effect on total nitrogen and total phosphorus in eutrophic water of Pterocarya stenoptera[J].Journal of Nanjing Forestry Univiersity(Natural Sciencs Edition), 2011,35(5):139-142.
[14] 孙海菁,王树凤,陈益泰.不同枫香种源对淹水胁迫的响应[J].南京林业大学学报(自然科学版),2012,36(3):43-48.DOI:10.3969/j.issn.1000-2006.2012.03.010. SUN H J, WANG S F, CHEN Y T.Response to waterlogging stress of different five Liquidxmbar formosana provenances[J].Journal of Nanjing Forestry Univiersity(Natural Sciencs Edition), 2012,36(3):43-48.
[15] 艾丽皎,余居华,张银龙.水淹对三同峡库区消落带南川柳植物群落的影响[J].南京林业大学学报(自然科学版),2013,37(4):23-28.DOI:10.3969/j.issn.1000-2006.2013.04.005. AI L J, YU J H, ZHANG Y L.Influence of flooding on community characterization of the species Salix rosthornii Seemen in water level fluctuation zone of the Three Groges Reservoir[J].Journal of Nanjing Forestry Univiersity(Natural Sciencs Edition), 2013,37(4):23-28.
[16] üLO M, VALDO K.Purification processes, ecological functions, planning and design of riparian buffet zones in agricultural watersheds[J].Ecological Engineering,2005,24(5):421-432. DOI:10.1016/j.ecoleng.2005.01.015.
[17] 余敏芬,方佳,何勇清,等.水蚀对千岛湖消落带土壤氮素影响的数值模型分析[J].浙江农林大学学报,2013,30(6):805-813.DOI:10.11833/j.issn.2095-0756.2013.06.002. YU M F, FANG J, HE Y Q, et al.Water erosion and soil nitrogen at the water-level-fluctuation zone of Qiandao Lake[J].Journal of Zhejiang Agriculture & Forestry University, 2013,30(6):805-813.
[18] 刘维暐,杨帆,王杰,等.三峡水库干流和库湾消落区植被物种动态分布研究[J].植物科学学报,2011,29(3):296-306.DOI:10.3724/SP.J.1142.2011.30296. LIU W W, YANG F, WANG J, et al.Plant species dynamic distribution in the water-level-fluctuation zone of the main stream and bay of the Three Gorges Reservoir[J].Plant Science Journal, 2011,29(3):296-306.
[19] 陈翠翠,于洪贤,姚允龙,等.西泉眼水库消落带水生植物群落及分布特点[J].东北林业大学学报,2012,40(1):110-113.DOI:10.3969/j.issn.1000-5382.2012.01.029. CHEN C C, YU H X, YAO Y L, et al.Hydrophyte communities in riparian zones of Xiquanyan Reservoir and their distribution characteristics[J].Journal of Northeast Forestry University, 2012,40(1):110-113.
[20] 廖世纯,韦桥现,蔡健和,等.广西水库消落带植物群落调查[J].中国水土保持,2008(8):42-44. DOI:10.3969/j.issn.1000-0941.2008.08.016. LIAO S C, WEI Q X, CAI J H, et al.Investigation of plant community in the area of Guangxi Reservoir [J].Soil and Water Conservation in China, 2008(8):42-44.
[21] 刘成立,胡东,栾姗姗,等.妫河下游消落带植物群落优势种种间关系研究[J].首都师范大学学报(自然科学版),2011,32(3):34-40.DOI:10.3969/j.issn.1004-9398.2011.03.008. LIU C L, HU D, LUAN S S,et al.Study on inter-specific relationships of the dominant plant populations in downstream water-level-fluctuation zone of Gui River[J].Journal of Capital Normal University(Natural Science Edition), 2011,32(3):34-40.
[22] 齐代华,贺丽,周旭,等.三峡水库消落带植物物种组成及群落物种多样性研究[J].草地学报,2014,22(5):966-970.DOI:10.11733/j.issn.1007-0435.2014.05.009. QI D H, HE L, ZHOU X, et al.Species composition and species diversity of plant community in water-level-fluctuation zone of Three Gorges Reservoir[J].Acta Agrestia Sinica, 2014,22(5):966-970.
[23] 雷波,王业春,由永飞,等.三峡水库不同间距高程消落带草本植物群落物种多样性与结构特征[J].湖泊科学,2014,26(4):600-606. LEI B, WANG Y C, YOU Y F, et al.Diversity and structure of herbaceous plant community in typical water-level-fluctuation zone with different spacing elevation in Three Gorges Reservoir[J].Journal of Lake Science, 2014,26(4):600-606.
[24] 王建超,朱波,汪涛.三峡库区典型消落带淹水后草本植被的自然恢复特征[J].长江流域资源与环境,2011,20(5):603-610. WANG J C, ZHU B, WANG T.Characteristics of restoration of natural herbaceous vegetation of typical water-level fluctuation zone after flooding in the Three Gorges Reservoir Area[J].Resources and Environment in the Yangtza Basin, 2011,20(5):603-610.
[25] 孙荣,刘红,丁佳佳,等.三峡水库蓄水后开县消落带植物群落数量分析[J].生态与农村环境学报,2011,27(1):23-28.DOI:10.3969/j.issn.1673-4831.2011.01.005. SUN R, LIU H, DING J J, et al.Quantitative analyses of plant communities in the hydro-fluctuation area in Kaixian County after impoundment of Three-Gorge Reseroir[J].Journal of Ecology and Rural Environment, 2011,27(1):23-28.
[26] 陈春娣,吴胜军,MEURK C D,等.三峡库区新生城市湖泊岸带初冬植物群落构成及多样性初步研究——以开县汉丰湖为例[J].湿地科学,2014,12(2):197-203. CHEN C D, WU S J, MEURK C D, et al.Prelininary study on floristic composition and plant community diversity around shore zones of newly formed urban lakes in the Three Gorges Reservoir Area the early winter: a case study of Hanfeng Lake in Kai County[J].Wetland Science, 2014,12(2):197-203.
[27] 袁慎鸿,曾波,苏晓磊,等.水位节律差异对三峡水库消落区不同物候类型1年生植物物种构成的影响[J].生态学报,2014,34(22):6481-6488.DOI::10.5846/stxb201302120260. YUAN S H, ZENG B, SU X L, et al.Effect of water-level fluctuation discrepansy on the composition of different annuals Three Gorges Reservoir drawdown zone[J].Acta Ecologica Sinica, 2014,34(22):6481-6488.
[28] 朱妮妮,秦爱丽,郭泉水,等.三峡水库巫山—秭归段典型消落带植被空间分异研究[J].林业科学研究,2015,28(1):109-115. DOI: 10.13275/j.cnki.lykxyj.2015.01.017. ZHU N N, QIN A L, GUO Q S, et al.Spatial heterogeneity of plant community in Zigui and Wushan typical hydro-fluctuation belt of Three Goreges Reservoir Areas[J].Forest Research, 2015,28(1):109-115.

基金

收稿日期:2016-05-25 修回日期:2017-01-07
基金项目:浙江省省属科研院所扶持专项计划项目(2014F50017)
第一作者:徐高福(caxajkfz@163.com),教授级高级工程师。
引文格式:徐高福,卢刚,张建和,等. 千岛湖风化基岩消落带植被的垂直分布特征[J]. 南京林业大学学报(自然科学版),2017,41(3):86-94.