YU Jingrui,YANG Gairen,TIAN Xue,et al.Effects of Eucalyptus Plantation Replacing Long Rotation Plantation on Soil Infiltration[J].Research of Soil and Water Conservation,2017,24(06):11-15.
桉树人工林取代长周期人工林对土壤入渗特性的影响
- Title:
- Effects of Eucalyptus Plantation Replacing Long Rotation Plantation on Soil Infiltration
- 分类号:
- S714;S152.7+2
- 摘要:
- 广西桉树人工林的前茬主要为轮伐周期较长的松杉类人工林,为探讨上述植被变化对林地土壤水分下渗的影响,采用单环法研究了8年生(06-EU),5年生(09-EU),4年生(10-EU)和1年生(13-EU)等第一代桉树(Eucalyptus urophylla E.grandis)人工林及其对照林21年生针阔混交(93-CM),第三代2年生桉树(12-EU3),18年生杉木(Cunninghamia lanceolate,96-CL)和马尾松(Pinus massoniana,96-PM)等人工林的土壤水分下渗特征,并采用BEST-intercept方法对土壤入渗特征参数进行估算。结果表明:(1)针阔混交和马尾松人工林改为桉树人工林后,土壤(0-20 cm)容重分别降低13.5%和18.3%,孔隙度分别增加10.1%和14.8%,但土壤颗粒组成的变化不显著;(2)针阔混交林改为桉树人工林后,土壤初始入渗速率和前600 s下渗量分别降低38.2%和25.3%,而杉木人工林、马尾松人工林则分别升高23.9%,148.1%和32.7%,97.2%;(3)连载代次的增加对桉树林土壤基本物理性质影响不显著,但会降低土壤水分下渗性能,第三代桉树林的初始入渗速率和前600 s下渗量比第一代减少39.9%和32.4%。容重较大的林地在造林和抚育过程中的松土活动导致了土壤大孔隙增加,这是土壤水分下渗速率变化的主要成因。
- Abstract:
- The previous stand types of eucalyptus plantation in Guangxi are mostly Coniferopsida long rotation plantation such as Pinus massoniana and Chinese fir. In order to ascertain the effect of vegetation changes on forest soil infiltration, infiltration of soils under deferent ages (8, 5, 4 and 1 years, abbreviation for 06-EU, 09-EU, 10-EU and 13-EU, respectively) first generation eucalyptus(Eucalyptus urophylla E. grandis) plantations were measured using single ring. Their control forest (21 a conifer-broadleaf mixed forest, 93-CM, 2 a third generation eucalyptus,12-EU3, 18 a Cunninghamia lanceolate, 96-CL, 18 a Pinus massoniana, 96-PM) were investigated at the same time. The soil infiltration parameters were calculated using BEST-intercept method. The study indicated that, compare with the previous stands (93-CM and 96-PM), the soil bulk densities of 06-EU and 13-EU significantly decreased by 13.5% and 18.3%, respectively, and porosities increased by 10.1% and 14.8%, but the change of soil particle-size distribution was not significant. The initial infiltration rate and 600 s cumulative infiltration of 06-EU were 39.9% and 25.3% lower than those of 93-CM; compare with the pre-stands(96-CL and 96-PM), the initial infiltration rate and 600 s cumulative infiltration of 10-EU and 13-EU increased by 23.9%, 148.1% and 32.7%, 97.2%, respectively; there was no significant different of soil physical property between the first with third generation eucalyptus plantations; the initial infiltration rate and 600 s cumulative infiltration of 12-EU3 were 39.9% and 32.4% lower than that of 10-EU. The research results indicate that afforestation eucalyptus on long rotation plantation land will increase soil macropore rates, which induces the changes of soil infiltration.
参考文献/References:
[1] 刘霞,张光灿,李雪蕾.小流域生态修复过程中不同森林植被土壤入渗与贮水特征[J].水土保持学报,2004,(18)6:1-5.
[2] Li X, Feng G, Zhao C, et al. Characteristics of soil infiltration in the Tarim River floodplain[J]. Environmental Earth Sciences, 2016,75(9):1-7.
[3] 陈楚楚,黄新会,刘芝芹,等.滇西北高原湿地不同植被类型下的土壤入渗特性及其影响因素[J].水土保持通报,2016,36(2):82-87.
[4] 刘芝芹,黄新会,王克勤.金沙江干热河谷不同土地利用类型土壤入渗特征及其影响因素[J].水土保持学报,2014,28(2):57-63.
[5] 林代杰,郑子成,张锡洲,等.不同土地利用方式下土壤入渗特征及其影响因素[J].水土保持学报,2010,24(1):33-36.
[6] 张永涛,杨吉华,夏江宝,等.石质山地不同条件的土壤入渗特性研究[J].水土保持学报,2002,16(4):123-126.
[7] 赵维俊,刘贤德,张学龙,等.祁连山西水林区亚高山灌丛土壤入渗性能研究[J].水土保持学报,2015,29(2):106-110.
[8] 冯绍元,丁跃元,姚彬.用人工降雨和数值模拟方法研究降雨入渗规律[J].水利学报,1998(11):17-20.
[9] 董三孝.黄土丘陵区退耕坡地植被自然恢复过程及其对土壤入渗的影响[J].水土保持通报,2004,24(4):1-5.
[10] 韩冰,吴钦孝,李秧秧,等.黄土丘陵区人工油松林地土壤入渗特征的研究[J].防护林科技,2004(5):1-3.
[11] 姚宝林,李光永,李发永.南疆滴灌棉田休闲期土壤入渗特性研究[J].中国农业科学,2014,47(22):4453-4462.
[12] 王丽红,辛颖,赵雨森,等.大兴安岭重度火烧迹地植被恢复过程中土壤入渗特征研究[J].水土保持学报,2014,28(4):13-17.
[13] 杨钙仁,苏晓琳,蔡德所,等.针阔混交林转为桉树林对森林小气候的影响[J].水土保持研究,2013,20(5):129-134.
[14] 杨钙仁,苏晓琳,蔡德所,等.植被变化对桉树人工林地蓄水功能的影响[J].中国水土保持,2012(3):18-21.
[15] 苏晓琳.桉树造林对林地土壤水文功能和养分淋失的影响[D].南宁:广西大学,2014.
[16] 李国平,张卫强,张卫华,等.桉树林和针阔混交林对土壤理化性质的影响比较[J].广东农业科学,2014,41(20):67-74.
[17] 温远光,郑羡,李明臣,等.广西桉树林取代马尾松林对土壤理化性质的影响[J].北京林业大学学报,2009,31(6):145-148.
[18] Xu X, Lewis C, Liu W, et al. Analysis of single-ring infiltrometer data for soil hydraulic properties estimation:Comparison of BEST and Wu methods[J]. Agricultural Water Management, 2012,107(8):34-41.
[19] Lassabatère L, Angulojaramillo R, Ugalde J M, et al. Beerkan Estimation of Soil Transfer Parameters through Infiltration Experiments-BEST[J]. Soil Science Society of America Journal, 2006,70(2):521-532.
[20] Kooijman A M, Jongejans J, Sevink J. Parent material effects on Mediterranean woodland ecosystems in NE Spain[J]. Catena, 2005,59(1):55-68.
[21] 景宜然,邓湘雯,邓东华,等.湘西南不同石漠化程度土壤理化性质及相关性分析[J].水土保持学报,2016,30(1):189-195.
[22] 唐国勇,高成杰,李昆.植被恢复对干热河谷退化土壤改良的影响[J].生态学报,2015,35(15):5157-5167.
[23] Cao C Y, Jiang D M, Teng X H, et al. Soil chemical and microbiological properties along a chronosequence of Caragana microphylla Lam. plantations in the Horqin sandy land of Northeast China[J]. Applied Soil Ecology, 2008,40(1):78-85.
[24] Watson K W, Luxmoore R J. Estimating Macroporosity in a Forest Watershed by use of a Tension Infiltrometer[J]. Soil Science Society of America Journal, 1986,50(3):578-582.
[25] 林琳, 单博, 卢倩倩,等. 模拟机械压实黑土持水特征与孔隙分布[J]. 东北林业大学学报, 2014(12):102-105.
[26] 王纪杰,俞元春,陈容,等.不同栽培代次、林龄的桉树人工林土壤渗透性研究[J].水土保持学报,2011,25(2):78-83.
相似文献/References:
[1]郑江坤,魏天兴,陈致富,等.陕北生态退耕区植被群落土壤贮水量与入渗特性[J].水土保持研究,2010,17(04):162.
ZHENG Jiang-kun,WEI Tian-xing,CHEN Zhi-fu,et al.Soil Water Holding Capacities and Infiltration Characteristics of Vegetation Community in Ecological Cropland Conversion Area, Northern of Shaanxi Province[J].Research of Soil and Water Conservation,2010,17(06):162.
[2]刘卉芳,曹文洪,王向东.黄土区不同地类土壤水分入渗与模拟研究[J].水土保持研究,2008,15(05):42.
LIU Hui-fang,CAO Wen-hong,WANG Xiang-dong.Study on Soil Moisture Infiltration and Simulation in Different Land Use of the Loess Area[J].Research of Soil and Water Conservation,2008,15(06):42.
备注/Memo
收稿日期:2016-12-12;改回日期:2017-01-01。
基金项目:国家自然科学基金项目“桉树人工林主要生态水文过程及其对产流的影响机理”(31360134)
作者简介:于婧睿(1990-),女,黑龙江哈尔滨市人,硕士,主要研究方向为生态水文学。E-mia:yujingrui2016@163.com
通讯作者:杨钙仁(1976-),男,广西桂平人,博士,教授,主要研究生态水文与生态工程。E-mail:yanggr@gxu.edu.cn