干旱区生态环境知识资源中心(Arid): 机械压实对新疆绿洲农田土壤微生物活性及碳排放的影响

Arid

	机械压实对新疆绿洲农田土壤微生物活性及碳排放的影响
其他题名	Effects of mechanical compaction on soil microbial activities and carbon emission of oasis agricultural soils in Xinjiang
	李典鹏; 王辉; 孙涛; 刘隋赟昊; 李政; 张凯; 贾宏涛
来源期刊	农业工程学报
ISSN	1002-6819
出版年	2018
卷号	34 期号:20 页码:124-131
中文摘要	为探究机械压实对绿洲农田土壤微生物活性和碳排放的影响,在参考新疆农田耕作层土壤容重分布特征的基础上,选取1.15(T_(1.15))、1.30(T_(1.30))、1.45(T_(1.45))和1.60 g/cm~3(T_(1.60))4个容重梯度模拟机械压实土壤程度,测定不同处理0~120 d内土壤有机碳、微生物生物量碳、氮、酶活性以及碳排放速率变化特征。结果表明:1)试验周期内(0~ 120 d),土壤微生物生物量碳、氮、脲酶和过氧化氢酶活性随试验周期的延长而降低,随土壤容重增加呈先升高后降低趋势,容重为1.45 g/cm~3时最高。2)T_(1.15)、T_(1.30)、T_(1.45)和T_(1.60)处理土壤碳累积排放量分别为557.26、653.48、 665.00和522.01 g/m~2,也表现出随容重增加先升高后降低的趋势,T_(1.45)处理最高。3)土壤碳排放与土壤有机碳、可溶性有机碳、微生物生物量碳、氮、脲酶和过氧化氢酶活性显著正相关(P<0.05)。综上,土壤压实通过改变土壤微生物生物量和酶活性影响土壤碳排放速率;当绿洲农田土壤容重大于1.45 g/cm~3时,应进行适当的翻松,使土壤微生物活性达到最佳水平。
英文摘要	The impact of structural deformations on soil properties controls its function as habitat. Soil compaction is widespread but tends to be most prevalent where heavy machinery is used in forestry and agriculture. Untimely traffic with heavy logging machinery often leads to irreversible damage of soil structure, restricting plant growth, reducing crop yield or decreasing the greenhouse gas emissions mitigation potential from the farmland. Avoiding soil compaction caused by agricultural management is a key aim of sustainable land management; however, limited understanding exists on how compaction affects the soil carbon process and microbial activities. Thus, we conducted a 120-day laboratory incubation to evaluate the effects of soil compaction mainly in agricultural soils on soil organisms and soil biological processes to identify relevant parameters which are helpful for assessing soil compaction from the soil biological and environmental point of view. We evaluated if threshold values of soil bulk density correspond to impacts on soil microbial fertility and environmental effect on soil. Our literature review showed that bulk density of Xinjiang farmland soil ranges from 0.85-1.60 g/cm~3. In this study we used i) non-compacted reference 1.15 g/cm~3 T_(1.15), ii) Treatment 1.30 g/cm~3 (T_(1.30)), where soil was the median value of bulk density, iii) T_(1.45), with was 75% of the value, iv) T_(1.60) was the maximum bulk density of the Xinjiang oasis farmland. In this study, we measured the soil carbon emission rate under different bulk density conditions using a Li-8100 automated soil CO2 flux system ( LI-COR, Lincoln,Nebraska,USA) from June to October 2016, and soil organic carbon (SOC), urease activity (URE), catalase activity (CAT), dissolved organic carbon (DOC), microbial biomass carbon (MBC), microbial biomass nitrogen (MBN) were also measured. The result showed that during the laboratory incubation time (0-120 d) treatment T_(1.15), T_(1.30), T_(1.45) and T_(1.60), MBC, MBN, URE and CAT decreased with the extension of the test period. Under different bulk density levels, soil MBC, MBN, URE and CAT increased rapidly and then decreased with the increase of soil bulk density, and was the highest when the bulk density was 1.45 g/cm~3. Cumulative carbon emission from T_(1.15), T_(1.30), T_(1.45) and T_(1.60) treatments was 557.26, 653.48, 665.00 and 522.01 g/m~2, respectively. There was a trend of increasing first and then decreasing with increasing soil bulk density, and the highest was T_(1.45). The correlation analysis showed that soil carbon emissions were significantly correlated with urease and catalase activity (P<0.05), and very significantly correlated with soil organic carbon, dissolved organic carbon, and microbial biomass carbon and nitrogen (P<0.01). The effects of compaction on soil microbial activities and carbon emissions were weighed. Combined effects of trade-offs and compactions on soil biological activity and carbon emissions revealed that soil carbon emissions were the highest when the microbial activity is the highest, and therefore, the maximum microbial activities will also produce greater environmental effects. In summary, mechanical compaction directly affected microbial activities and carbon emissions by changing soil bulk density and pore structure. Therefore, when the soil capacity of oasis farmland was greater than or equal to or less than 1.45 g/cm~3, proper overturning or repression should be carried out to make the soil biologically active at the best level.
中文关键词	土壤 ; 微生物 ; 碳排放 ; 压实作用 ; 微生物生物量 ; 酶活性 ; 新疆农田
英文关键词	soils microorganisms carbon emission mechanical compaction microbial biomass enzyme activity Xinjiang farmland
语种	中文
国家	中国
收录类别	CSCD
WOS类目	AGRICULTURE MULTIDISCIPLINARY
WOS研究方向	Agriculture
CSCD记录号	CSCD:6356421
来源机构	新疆农业大学
资源类型	期刊论文
条目标识符	http://119.78.100.177/qdio/handle/2XILL650/237993
作者单位	新疆农业大学草业与环境科学学院, 乌鲁木齐, 新疆 830052, 中国
推荐引用方式 GB/T 7714	李典鹏,王辉,孙涛,等. 机械压实对新疆绿洲农田土壤微生物活性及碳排放的影响[J]. 新疆农业大学,2018,34(20):124-131.
APA	李典鹏.,王辉.,孙涛.,刘隋赟昊.,李政.,...&贾宏涛.(2018).机械压实对新疆绿洲农田土壤微生物活性及碳排放的影响.农业工程学报,34(20),124-131.
MLA	李典鹏,et al."机械压实对新疆绿洲农田土壤微生物活性及碳排放的影响".农业工程学报 34.20(2018):124-131.