中国环境科学
中國環境科學
중국배경과학
CHINA ENVIRONMENTAL SCIENCE
2014年
11期
2931-2941
,共11页
汪峰%类成霞%蒋瑀霁%陈长青%孙波
汪峰%類成霞%蔣瑀霽%陳長青%孫波
왕봉%류성하%장우제%진장청%손파
砷%水稻品种%红泥田%黄泥田%磷脂脂肪酸
砷%水稻品種%紅泥田%黃泥田%燐脂脂肪痠
신%수도품충%홍니전%황니전%린지지방산
arsenic%rice genotype%red paddy soil%yellow paddy soil%phospholipid fatty acid (PLFA)
基于温室盆栽实验,利用磷脂脂肪酸分析(PLFA)方法研究了 As 污染、土壤类型和水稻品种对水稻抽穗期土壤微生物群落的影响.结果表明,水稻土土壤中微生物生物总量(总PLFAs)以及微生物组成均不同程度的受到了As污染、土壤类型及水稻品种的影响;As污染增加了土壤总 PLFAs,黄泥田的土壤总 PLFAs、真菌/细菌(F/B)、革兰氏阳性细菌/阴性细菌(G+/G-)、腐生真菌/丛枝菌根真菌(SF/AMF)显著高于红泥田;在黄泥田中,种植籼稻品种的土壤总PLFAs较杂交稻和粳稻品种平均减少30.0%,而在红泥田中平均增加24.8%.偏Mantel检验和冗余分析(RDA)表明土壤 pH 值、DOC、NH4+和 As 浓度是驱动水稻土微生物群落演变的主控因子,其中受 As 影响较大的特征 PLFAs包括20:0、i17:1ω9c、18:1ω9c、cy17:0和18:3ω6c;ABT预测模型显示水稻品种和土壤类型对总PLFAs、F/B、G+/G-和SF/AMF指标的贡献相对较大,而As处理的影响较小.
基于溫室盆栽實驗,利用燐脂脂肪痠分析(PLFA)方法研究瞭 As 汙染、土壤類型和水稻品種對水稻抽穗期土壤微生物群落的影響.結果錶明,水稻土土壤中微生物生物總量(總PLFAs)以及微生物組成均不同程度的受到瞭As汙染、土壤類型及水稻品種的影響;As汙染增加瞭土壤總 PLFAs,黃泥田的土壤總 PLFAs、真菌/細菌(F/B)、革蘭氏暘性細菌/陰性細菌(G+/G-)、腐生真菌/叢枝菌根真菌(SF/AMF)顯著高于紅泥田;在黃泥田中,種植秈稻品種的土壤總PLFAs較雜交稻和粳稻品種平均減少30.0%,而在紅泥田中平均增加24.8%.偏Mantel檢驗和冗餘分析(RDA)錶明土壤 pH 值、DOC、NH4+和 As 濃度是驅動水稻土微生物群落縯變的主控因子,其中受 As 影響較大的特徵 PLFAs包括20:0、i17:1ω9c、18:1ω9c、cy17:0和18:3ω6c;ABT預測模型顯示水稻品種和土壤類型對總PLFAs、F/B、G+/G-和SF/AMF指標的貢獻相對較大,而As處理的影響較小.
기우온실분재실험,이용린지지방산분석(PLFA)방법연구료 As 오염、토양류형화수도품충대수도추수기토양미생물군락적영향.결과표명,수도토토양중미생물생물총량(총PLFAs)이급미생물조성균불동정도적수도료As오염、토양류형급수도품충적영향;As오염증가료토양총 PLFAs,황니전적토양총 PLFAs、진균/세균(F/B)、혁란씨양성세균/음성세균(G+/G-)、부생진균/총지균근진균(SF/AMF)현저고우홍니전;재황니전중,충식선도품충적토양총PLFAs교잡교도화갱도품충평균감소30.0%,이재홍니전중평균증가24.8%.편Mantel검험화용여분석(RDA)표명토양 pH 치、DOC、NH4+화 As 농도시구동수도토미생물군락연변적주공인자,기중수 As 영향교대적특정 PLFAs포괄20:0、i17:1ω9c、18:1ω9c、cy17:0화18:3ω6c;ABT예측모형현시수도품충화토양류형대총PLFAs、F/B、G+/G-화SF/AMF지표적공헌상대교대,이As처리적영향교소.
In a pot experiment, the effects of As contamination, soil type and rice cultivar on the composition of soil microbial communities in rice heading stage were unalyzal using phospholipid fatty acid (PLFA) technique. The results unveiled that the amount of total PLFAs and microbial compositions were to some extent affected by arsenic contamination, soil types and rice cultivars. The As contaminated soils had a higher amount of total PLFAs than the uncontaminated soils. Yellow Paddy soils (YP) had higher total PLFAs, fungi to bacteria ratio (F/B), Gram-negative bacteria to Gram-positive bacteria ratio (G+/G-) and saprotrophic fungi to arbuscular mycorrhizal fungi ratio (SF/AMF) than in Red Paddy soils (RP). Total PLFAs associated with indica plants vs. those associated with japonica and hybrid plants decreased by an average of 30.0% in YP, but increased by 24.8% in RP. Partial Mantel tests and redundancy analysis (RDA) showed that soil pH, DOC, NH4+ and As concentration were the dominant factors in shaping soil microbial communities. The individual PLFAs including 20:0, i17:1ω9c, 18:1ω9c, cy17:0 and 18:3ω6c were easily affected by As contamination. Aggregated boosted tree (ABT) analysis suggested that soil types and rice cultivars exerted more influence than As concentration on the variation of parameters of total PLFAs, F/B, G+/G-and SF/AMF.
