文献类型：期刊文献

中文题名：林地覆盖对雷竹林土壤微生物特征及其与土壤养分制约性关系的影响

英文题名：Influence of mulching management on soil microbe and its relationship with soil nutrient in Phyllostachys praecox stand

作者：郭子武[1] 俞文仙[2] 陈双林[1] 李迎春[1] 杨清平[1]

第一作者：郭子武

机构：[1]中国林业科学研究院亚热带林业研究所;[2]浙江省富阳市林业局

年份：2013

卷号：33

期号：18

起止页码：5623-5630

中文期刊名：生态学报

外文期刊名：Acta Ecologica Sinica

收录：CSTPCD;;Scopus;北大核心:【北大核心2011】；CSCD:【CSCD2013_2014】；

基金：国家林业局林业科技推广项目([2011]02号);浙江省林业科技推广项目(2011B01);杭州市科研院所专项(20090332N01);浙江省"十二五"农业重大成果转化工程项目(2012T201-03)

语种：中文

中文关键词：雷竹;林地覆盖;土壤微生物;土壤养分;土壤障害

外文关键词：Phyllostachys praecox; mulching of bamboo stand; soil microbe; soil nutrient; soil obstacle

分类号：S158.3

摘要：为了探讨林地覆盖雷竹林退化机理,给退化雷竹林恢复提供理论参考,对不同覆盖年限(CK、1、3 a和6 a)雷竹林土壤微生物区系组成和生物量碳(C mic)、氮(N mic)、磷(P mic)等特征因子进行了测定,并分析了其与土壤养分的制约性关系。结果表明:(1)雷竹林土壤微生物以细菌为主,真菌次之,放线菌最少,分别占土壤微生物总量的90.11%—98.03%、1.04%—9.22%和0.67%—1.37%。随覆盖年限增加,细菌、放线菌比率呈下降趋势,真菌比率呈上升趋势;土壤微生物总数、细菌和放线菌数量及C mic、N mic、P mic均呈先升高后降低的变化趋势,试验雷竹林间差异极显著,真菌数量总体呈极显著升高趋势。(2)雷竹林土壤微生物特征因子与土壤有机质(SOM)、全氮(TN)、全磷(TP)、碱解氮(Available nitrogen,AN)和pH均呈显著或极显著相关,其中,CK和覆盖1 a、3 a雷竹林土壤微生物特征因子与土壤养分主要呈正相关,与pH呈负相关,而覆盖6 a雷竹林则相反。(3)不同覆盖年限雷竹林土壤养分与土壤微生物的制约性关系存在一定的差异,CK雷竹林土壤SOM、TN、AN、速效钾(AK)和pH主要影响土壤C mic、N mic和细菌,覆盖1 a雷竹林土壤SOM、TN、TP和AK主要影响土壤P mic、放线菌和细菌,覆盖3 a雷竹林土壤SOM、TN、速效磷(AP)和AN主要影响土壤N mic、放线菌和真菌,覆盖6 a雷竹林土壤SOM、TN和pH主要影响土壤N mic、真菌。研究表明:长期覆盖雷竹林土壤细菌、放线菌数量与比例明显降低,真菌数量与比例明显提高,土壤养分与土壤微生物的制约性作用关系会发生较为明显变化,产生土壤障害,这是覆盖雷竹林退化的主要原因之一。
Soil microbe is the major component of soil out the whole process of soil development, and plays a key role in material recycling and energy conversion in soil ecosystem.The living environment for soil microbe is a very sensitive early-warning indicator of changes in soil ecosystem.To approach the impact of intensive and mulching management on soil microbial biomass populations and biomass and to clarify the degradation mechanism of Phyllostachys praecox stand, the test plot was established. With the experiment, microbial composition, microbial biomass carbon （Cmic ）, microbial biomass nitrogen（ Nmic ） , microbial biomass phosphorus （Pmic） from bamboo stand with different mulching management treatments （6a, 3a,1a and CK stand） were determined, meanwhile the relationship between soil microbe and soil organic matter （SOM）, total nitrogen（TN）, total phosphorus（TP）, total potassium（TK）, available nitrogen（AN）, available phosphorus （AP）, available potassium （AK） and pH was analyzed, too, and this research will provide theoretical guidance forregeneration of degraded bamboo plantations. The results showed that ： （ 1 ） Among the microble in Ph.praeox stand soil, bacteria was the dominant, fungi was the next and actinomycete was the least, and accounted for 90.11%--98.03%, 1.04%--9.22% and 0.67%--1.37% of total number for soil microble, respectively.With the time of mulching management extending, the percentage of soil bacteria and actinomycete descended, while the percentage of fungi ascended. Moreover, the quantity of microbe, bacteria, actinomycete, and Credo, Nz^o, Pmie increased firstly then fell, and the difference among all treatments were highly significant, while the number of fungi increased significantly. （2） There were highly significant or significant correlation between soil microbial factors and SOM, TN, TP, AN and pH, and the correlation among soil nutrients and soil microbial factors were positive for CK, la and 3a stands, while that was negative for 6a stand.（3） There were different restrictive relationship between soil microbe factors and soil nutrient for CK, l a, 3a and 6a stand.In the CK stand, SOM, TN, pH, AN and AK played a greater role and mainly affected on C mic, Nmic and bacteria.While for the l a stand, SOM, TN, TP and AK had a greater effect on soil P^io, actinomycete and bacteria.And in the 3a stand, SOM, TN, AP and AN mainly influenced soil Nmic, actinomycete and fungi. Moreover for the 6a stand, SOM, TN and pH proudly affected on soil Nmic and fungi. It could be concluded that based on the results soil obstacle caused by inhibition of actinomycete and bacteria, in addition to promotion of fungi, and changed restrictive relationship between soil microbial factors and soil nutrients were main cause leading to soil degradation for mulching bamboo stand