CAJ | 학술논문

【目的】苹果园土壤肥力持续下降,禽畜废弃物肥源严重不足,施用植物源有机肥成为生产中改善果园土壤状况的重要措施之一。本试验利用BIOLOG微平板技术研究了盆栽条件下添加植物源有机物料及其腐殖化过程驱动因子对果园土壤微生物群落多样性的影响,探讨葡萄糖、尿素和蚯蚓在植物源有机物料向土壤碳库转化中的作用,为揭示果园土壤质量的演变机制提供参考。【方法】取苹果园0-20 cm土层土壤,与苹果枝条、玉米秸秆和果园杂草粉碎物混合,栽植2a生苹果砧木山定子幼苗,分别添加尿素、葡萄糖和蚯蚓,利用BIOLOG微平板技术进行土壤微生物群落多样性分析。不同处理的土壤浸提液在 BIOLOG生态测试板中培养,取培养96 h时微平板光密度值进行多样性指数计算,分别用丰富度指数S表示被微生物群落利用的基质数量,多样性指数表示反应孔与对照孔光密度值之差和整块板总差的比值,均匀度指数 E表示可培养微生物的种类均匀度,优势度指数Ds用于评估某些最常见种的优势度。对土壤微生物群落利用BIOLOG微平板中六类碳源(碳水化合物类、氨基酸类、羧酸类、多聚物类、芳香族类和胺类)的情况进行主成分分析,明确不同处理微生物对碳源利用能力的差异。【结果】有机物料种类、小分子有机物和蚯蚓数量均对平均吸光值( AWCD值)有显著影响,在培养024 h,玉米秸秆+葡萄糖+12条蚯蚓(T4)和果园杂草+葡萄糖(T9)处理的AWCD值明显高于其他处理,微生物群落的活性较强,碳源开始利用较早。2496 h时,AWCD呈指数增长,120 h后趋于平缓,以玉米秸秆+葡萄糖+12条蚯蚓(T4)、苹果枝条+葡萄糖+6条蚯蚓(T2)、果园杂草+葡萄糖(T9)处理斜率最大,其次为玉米秸秆+尿素+6条蚯蚓(T6)和苹果枝条+尿素(T1)处理；小分子有机物种类对微生物群落丰富度指数(S)和优势度指数(Ds)的影响显著,丰富度指数(S)以苹果枝条+葡萄糖+6条蚯蚓(T2)最大,优势度指数(Ds)以玉米秸秆+葡萄糖+12条蚯蚓(T4)最大,各处理的多样性指数( H)和均一度指数( E)差异不显著；对碳源利用主成分起分异作用的主要是碳水化合物类和多聚物类。【结论】与秸秆和杂草处理相比,苹果枝条处理土壤微生物群落多样性较丰富,加入葡萄糖为土壤微生物提供可迅速利用的碳源,微生物功能多样性也显著增加；蚯蚓活动对微生物群落多样性的影响比葡萄糖小,尿素对微生物群落多样性的影响也较小,但同时添加尿素和葡萄糖有助于微生物多样性的增加。【目的】蘋果園土壤肥力持續下降,禽畜廢棄物肥源嚴重不足,施用植物源有機肥成為生產中改善果園土壤狀況的重要措施之一。本試驗利用BIOLOG微平闆技術研究瞭盆栽條件下添加植物源有機物料及其腐殖化過程驅動因子對果園土壤微生物群落多樣性的影響,探討葡萄糖、尿素和蚯蚓在植物源有機物料嚮土壤碳庫轉化中的作用,為揭示果園土壤質量的縯變機製提供參攷。【方法】取蘋果園0-20 cm土層土壤,與蘋果枝條、玉米秸稈和果園雜草粉碎物混閤,栽植2a生蘋果砧木山定子幼苗,分彆添加尿素、葡萄糖和蚯蚓,利用BIOLOG微平闆技術進行土壤微生物群落多樣性分析。不同處理的土壤浸提液在 BIOLOG生態測試闆中培養,取培養96 h時微平闆光密度值進行多樣性指數計算,分彆用豐富度指數S錶示被微生物群落利用的基質數量,多樣性指數錶示反應孔與對照孔光密度值之差和整塊闆總差的比值,均勻度指數 E錶示可培養微生物的種類均勻度,優勢度指數Ds用于評估某些最常見種的優勢度。對土壤微生物群落利用BIOLOG微平闆中六類碳源(碳水化閤物類、氨基痠類、羧痠類、多聚物類、芳香族類和胺類)的情況進行主成分分析,明確不同處理微生物對碳源利用能力的差異。【結果】有機物料種類、小分子有機物和蚯蚓數量均對平均吸光值( AWCD值)有顯著影響,在培養024 h,玉米秸稈+葡萄糖+12條蚯蚓(T4)和果園雜草+葡萄糖(T9)處理的AWCD值明顯高于其他處理,微生物群落的活性較彊,碳源開始利用較早。2496 h時,AWCD呈指數增長,120 h後趨于平緩,以玉米秸稈+葡萄糖+12條蚯蚓(T4)、蘋果枝條+葡萄糖+6條蚯蚓(T2)、果園雜草+葡萄糖(T9)處理斜率最大,其次為玉米秸稈+尿素+6條蚯蚓(T6)和蘋果枝條+尿素(T1)處理；小分子有機物種類對微生物群落豐富度指數(S)和優勢度指數(Ds)的影響顯著,豐富度指數(S)以蘋果枝條+葡萄糖+6條蚯蚓(T2)最大,優勢度指數(Ds)以玉米秸稈+葡萄糖+12條蚯蚓(T4)最大,各處理的多樣性指數( H)和均一度指數( E)差異不顯著；對碳源利用主成分起分異作用的主要是碳水化閤物類和多聚物類。【結論】與秸稈和雜草處理相比,蘋果枝條處理土壤微生物群落多樣性較豐富,加入葡萄糖為土壤微生物提供可迅速利用的碳源,微生物功能多樣性也顯著增加；蚯蚓活動對微生物群落多樣性的影響比葡萄糖小,尿素對微生物群落多樣性的影響也較小,但同時添加尿素和葡萄糖有助于微生物多樣性的增加。
【목적】평과완토양비력지속하강,금축폐기물비원엄중불족,시용식물원유궤비성위생산중개선과완토양상황적중요조시지일。본시험이용BIOLOG미평판기술연구료분재조건하첨가식물원유궤물료급기부식화과정구동인자대과완토양미생물군락다양성적영향,탐토포도당、뇨소화구인재식물원유궤물료향토양탄고전화중적작용,위게시과완토양질량적연변궤제제공삼고。【방법】취평과완0-20 cm토층토양,여평과지조、옥미갈간화과완잡초분쇄물혼합,재식2a생평과침목산정자유묘,분별첨가뇨소、포도당화구인,이용BIOLOG미평판기술진행토양미생물군락다양성분석。불동처리적토양침제액재 BIOLOG생태측시판중배양,취배양96 h시미평판광밀도치진행다양성지수계산,분별용봉부도지수S표시피미생물군락이용적기질수량,다양성지수표시반응공여대조공광밀도치지차화정괴판총차적비치,균균도지수 E표시가배양미생물적충류균균도,우세도지수Ds용우평고모사최상견충적우세도。대토양미생물군락이용BIOLOG미평판중륙류탄원(탄수화합물류、안기산류、최산류、다취물류、방향족류화알류)적정황진행주성분분석,명학불동처리미생물대탄원이용능력적차이。【결과】유궤물료충류、소분자유궤물화구인수량균대평균흡광치( AWCD치)유현저영향,재배양024 h,옥미갈간+포도당+12조구인(T4)화과완잡초+포도당(T9)처리적AWCD치명현고우기타처리,미생물군락적활성교강,탄원개시이용교조。2496 h시,AWCD정지수증장,120 h후추우평완,이옥미갈간+포도당+12조구인(T4)、평과지조+포도당+6조구인(T2)、과완잡초+포도당(T9)처리사솔최대,기차위옥미갈간+뇨소+6조구인(T6)화평과지조+뇨소(T1)처리；소분자유궤물충류대미생물군락봉부도지수(S)화우세도지수(Ds)적영향현저,봉부도지수(S)이평과지조+포도당+6조구인(T2)최대,우세도지수(Ds)이옥미갈간+포도당+12조구인(T4)최대,각처리적다양성지수( H)화균일도지수( E)차이불현저；대탄원이용주성분기분이작용적주요시탄수화합물류화다취물류。【결론】여갈간화잡초처리상비,평과지조처리토양미생물군락다양성교봉부,가입포도당위토양미생물제공가신속이용적탄원,미생물공능다양성야현저증가；구인활동대미생물군락다양성적영향비포도당소,뇨소대미생물군락다양성적영향야교소,단동시첨가뇨소화포도당유조우미생물다양성적증가。
Objectives As soil fertility in apple orchards is declined continuously and livestock waste organic manure sources are seriously inadequate, application of plant-derived organic manure is becoming one of important measures to improve orchard soil conditions. Effects of plant-derived organic matter and driving forces on soil microbial functional diversity in pot planted apple rootstock seedlings were studied by using the BIOLOG microplate technique. The functions of glucose, urea and earthworm in the plant-derived organic matter transformation process to soil carbon pool were explored, which could provide a reference for revealing evolution mechanism of orchard soil quality. [Methods]2a Malus baccata (L. ) Borkh seedlings were planted in apple orchard soils (0 -20 cm) mixed with chopped apple branches, corn stalks and orchard weeds. The urea, glucose and earthworms were added into the pots. The soil microbial community diversities were analyzed by the BIOLOG technique. Soil extracts of different treatments were cultured in BIOLOG ecological test plates. The diversity indexes were calculated using microplate optical density values at 96 h. Substrate richness (S) is the number of different substrates used by the community (counting all positive OD readings). Shannon’s diversity index is the ratio of the corrected absorbance value of each well to the sum of absorbance value of all wells. Substrate evenness (E) is a measure of the uniformity of activities across all substrates. Simpson’s Dominance indicates the dominance of certain species. The carbon substrate utilization differences of microbe were obtained by principal components analysis (PCA) of six carbon sources (carbohydrates, amino acids, carboxylic acids, polymers, aromatic and amines) in the BIOLOG microplates. [Results]The results show that the average well color development(AWCD) values are significantly affected by organic material types, small molecular organic compounds and numbers of earthworms. The AWCD values of the corn straw + glucose + 12 earthworms(T4) and the orchard weed with glucose(T9) are obviously higher than those of other treatments in the first 24 hour culture, and the activities of microbial communities are also higher and carbon sources are used earlier. The AWCD values show an exponential growth in the 24-96 hour culture, and then become flat after 120 hours. The treatments of the corn straw + glucose + 12 earthworms(T4), the apple branches + glucose + 6 earthworm (T2)and the orchard weed with glucose(T9) have the steepest slopes and the highest microbial activities, and secondly for the corn straw + urea + 6 earthworm(T6) and the apple branches with urea ( T1) treatments. The small molecular organic compounds have significant effects on the microbial community substrate richness(S) and Simpson’s dominance (Ds), and the substrate richness (S) is the highest under the apple branches + glucose + 6 earthworm(T2), while the Simpson’ s dominance(Ds) is the highest under the corn straw + glucose +12 earthworms(T4). The Shannon index(H) and Substrate evenness (E) between different treatments are not significantly different. It is found that the differentiations of soil microbial communities are mainly caused by carbohydrate and polymers carbon. [Conclusions]Compared with the straw and weeds treatments, the microbial diversity of the branches treatments is high. The glucose provides carbon sources which can be used rapidly by microbe, and the microbial functional diversity is significantly increased. The effect of earthworm activity on the microbial functional diversity is less compared with the glucose. The urea has little effects on the microbial functional diversity, while the combination of urea and glucose could improve the microbial diversity.