中国生态农业学报
中國生態農業學報
중국생태농업학보
CHINESE JOURNAL OF ECO-AGRICULTURE
2010年
2期
365-370
,共6页
尧水红%刘艳青%王庆海%肖波%宋佃丽
堯水紅%劉豔青%王慶海%肖波%宋佃麗
요수홍%류염청%왕경해%초파%송전려
河滨缓冲带%根系结构%根系活力%土壤微生物%微生物生物量%微生物多样性%去除效果%农业面源污染物
河濱緩遲帶%根繫結構%根繫活力%土壤微生物%微生物生物量%微生物多樣性%去除效果%農業麵源汙染物
하빈완충대%근계결구%근계활력%토양미생물%미생물생물량%미생물다양성%거제효과%농업면원오염물
Riparian buffer zone%Root structure%Root vitality%Soil microbe%Microbial biomass%Microbial diversity%Removal efficiency%Agricultural non-point source pollutant
对河滨缓冲带常见的 3种水生植物根系形态特点、活力特征及其土壤微生物群落多样性进行了研究, 并对其农业面源污染物的去除效果进行了调查.结果表明, 3种水生植物根系形态和活力特征具有显著差异.根系活力表现为水生鸢尾>菖蒲>千屈菜, 与根尖数呈显著相关.同时, 3种水生植物具有显著的根际效益, 根际土壤微生物生物量显著高于非根际土壤; 根际土壤微生物群落数量为细菌>放线菌>真菌; 土壤微生物群落多样性指数为水生鸢尾>菖蒲>千屈菜, 这与3种水生植物根系活力特征表现一致.3种水生植物河滨缓冲区对农业面源污染物TN、TP 和 COD_(Cr)的去除效果表现为水生鸢尾>菖蒲>千屈菜.说明不同水生植物根系结构导致根系活力不同, 由此引起的土壤微生物群落多样性差异对水生植物农业面源污染物去除效果有一定影响.
對河濱緩遲帶常見的 3種水生植物根繫形態特點、活力特徵及其土壤微生物群落多樣性進行瞭研究, 併對其農業麵源汙染物的去除效果進行瞭調查.結果錶明, 3種水生植物根繫形態和活力特徵具有顯著差異.根繫活力錶現為水生鳶尾>菖蒲>韆屈菜, 與根尖數呈顯著相關.同時, 3種水生植物具有顯著的根際效益, 根際土壤微生物生物量顯著高于非根際土壤; 根際土壤微生物群落數量為細菌>放線菌>真菌; 土壤微生物群落多樣性指數為水生鳶尾>菖蒲>韆屈菜, 這與3種水生植物根繫活力特徵錶現一緻.3種水生植物河濱緩遲區對農業麵源汙染物TN、TP 和 COD_(Cr)的去除效果錶現為水生鳶尾>菖蒲>韆屈菜.說明不同水生植物根繫結構導緻根繫活力不同, 由此引起的土壤微生物群落多樣性差異對水生植物農業麵源汙染物去除效果有一定影響.
대하빈완충대상견적 3충수생식물근계형태특점、활력특정급기토양미생물군락다양성진행료연구, 병대기농업면원오염물적거제효과진행료조사.결과표명, 3충수생식물근계형태화활력특정구유현저차이.근계활력표현위수생연미>창포>천굴채, 여근첨수정현저상관.동시, 3충수생식물구유현저적근제효익, 근제토양미생물생물량현저고우비근제토양; 근제토양미생물군락수량위세균>방선균>진균; 토양미생물군락다양성지수위수생연미>창포>천굴채, 저여3충수생식물근계활력특정표현일치.3충수생식물하빈완충구대농업면원오염물TN、TP 화 COD_(Cr)적거제효과표현위수생연미>창포>천굴채.설명불동수생식물근계결구도치근계활력불동, 유차인기적토양미생물군락다양성차이대수생식물농업면원오염물거제효과유일정영향.
An experiment was conducted on the characteristics of root morphology and vitality, and soil microbial community diversity of three typical aquatic plants to determine their mitigation efficiency of agricultural non-point source pollutants in riparian buffer zones. All the aquatic plants used have significantly differences in the characteristics of root morphology and vitality. Root vitality values of the aquatic plants are in the following order: Iris pseudacorus > Acorus calamus > Lythrum salicaria. Root vitality has a significant correlation with root tip number. The aquatic plants show significant rhizosphere effect, soil microbial biomass in rhizosphere is markedly higher than that in bulk soils. Furthermore, microbial community in rhizosphere soils of the riparian buffer zone has the composition sequence as: bacteria > actinomycetes > fungi. Soil microbial community diversity index is as follows: I. pseudacorus > A. calamus > L. salicaria, having the same tendency as that of root vitality. The order of removal efficiency of TN, TP and COD_(Cr) by the aquatic plants in the riparian buffer zone is I. pseudacorus > A. calamus > L. salicaria. The results suggest that variations in root vitality caused by differences in root structure of aquatic plants influence soil microbial community structure and diversity. This results in the differences in removal efficiencies of agricultural non-point source pollutants in riparian buffer zones.
