不同种植方式对北疆绿洲土壤养分和生物学性状的影响

Soil nutrient and biological characteristics in North Xinjiang Oases as influenced by cropping patterns

  • 摘要: 长期种植不同作物对土壤的理化性质与生物学性状有很大影响。本研究针对北疆绿洲灰漠土几种典型作物种植方式, 研究了不同作物长期种植对土壤养分、酶活性、微生物量碳氮以及土壤呼吸的影响。结果表明: 长期种植不同作物使土壤表层(0~20 cm)与亚表层(20~40 cm)的土壤肥力性质产生明显分异, 表层土壤的肥力水平明显高于亚表层; 土壤pH则表层低于亚表层, 而不同种植方式对灰漠土pH无显著影响。长期种植不同作物对土壤主要生物过程关键酶活性、土壤呼吸等土壤生物性状有明显影响, 磷酸酶、脲酶、β-葡萄糖苷酶、多酚氧化酶、纤维素酶在不同种植方式下差异显著, 小麦/油葵轮作10年(WSR)方式下上述5种酶活性均较高。土壤微生物量碳氮随棉花连作年限的延长而显著下降, 且玉米连作10年(CrM)、小麦连作10年后棉花连作10年(WCtR)、棉花连作15年(CtM)和小麦/油葵轮作10年的土壤微生物量碳氮比分别为6.31、6.02、5.83和3.53。不同种植方式下土壤呼吸在120 h内的变化均为先下降后趋于平稳, 不同种植方式下的土壤呼吸商之间呈显著性差异, WSR呼吸商最高, 平均20.54 μg(CO2-C)·mg-1(Bc)·h-1, WCtR最低, 平均14.01μg(CO2-C)·mg-1(Bc)·h-1。作物长期连作后与绿肥作物轮作, 有利于提高土壤生物活性, 是一种较好的种植方式。

     

    Abstract: The objective of this study was to investigate the effect of long-term continuous mono-cropping and rotation on soil physico-chemical characteristics and biological activities using typical field cropping patterns in the oasis farmlands of North Xinjiang. The physico-chemical characteristics and biological activities investigated include main soil fertility indices, soil enzyme activities, microbial biomass C (MBC), microbial biomass N (MBN) and soil respiration rate. The results show that the quality of soil fertility is significantly higher for the 0~20 cm than for the 20~40 cm depth layer in soils subjected to long-term continuous mono-cropping and rotation with legumes. On the contrary, soil pH values are significantly higher in the subsurface layer than in the top layer. Though different cropping patterns have no significant effect on soil pH, they remarkably affect soil respiration rate and main soil enzyme activities including those of alkaline phosphatases, urease, β-glucosidase, polyphenol oxidase and cellulose. Compared with other treatments, a 10-year wheat/sunflower rotation (WSR) gives a higher enzyme activity. MBC and MBN decrease with duration of continuous cotton mono-cropping (from 10 to 15 years); MBC/MBN ratios under 10 years of continuous corn mono-cropping (CrM), wheat mono-cropping for 10 years followed by another 10 years of cotton mono-cropping (WCtR), and 15 years of continuous cotton mono-cropping (CtM) and WSR are respectively 6.31, 6.02, 5.83 and 3.53. Laboratory incubation studies show that soil respiration decreases in the early stages and then stabilizes in the later stages of incubation (a total time period of 120 h) for all soils under different cropping systems. There are significant differences in soil respiration quotients among different cropping patterns, with the highest average soil respiration quotient of 20.54 μg(CO2-C)·mg-1(Bc)·h-1 in WSR, and the lowest of 14.01 μg(CO2-C)·mg-1(Bc)·h-1 in WCtR. In conclusion therefore, rotation with green manure is the best cropping system for improved soil biological activity.

     

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