干旱区生态环境知识资源中心(Arid): 古尔班通古特沙漠土壤酶活性和微生物量氮对模拟氮沉降的响应

Arid

	古尔班通古特沙漠土壤酶活性和微生物量氮对模拟氮沉降的响应
其他题名	Responses of soil enzyme activities and microbial biomass N to simulated N deposition in Gurbantunggut Desert
	周晓兵 1; 张元明1 ; 陶冶 2; 张丙昌 1
来源期刊	生态学报
ISSN	1000-0933
出版年	2011
卷号	31 期号:12 页码:3340-3349
中文摘要	以新疆古尔班通古特沙漠为研究区,原位设定0(N0)、0.5(N0.5)、1.0(N1)、3.0(N3)、6.0(N6)和24.0(N24)g Nm-2a-16个模拟施氮浓度,研究氮沉降对土壤酶活性和微生物量N的影响。结果表明:不同浓度的氮增加未改变土壤酶活性和微生物量N原有的垂直分布格局,0-5 cm土层土壤多酚氧化酶和过氧化物酶活性分别比5-10 cm土层低14.3%-27.3%和1.4%-14.2%,而该土层的蔗糖酶、脲酶、碱性磷酸酶活性和微生物量N则分别比5-10 cm土层高18.0%-98.1%、45.3%-119.0%、76.1%-138.1%和77.5%-162.3%。氮增加后,0-5 cm土层的土壤酶活性和微生物量N比5-10 cm土层受影响更大。低氮和中氮(N0.5-N3)增加对0-5 cm土层氧化酶活性影响较小,各处理间差异不显著;高氮(N6,N24)对该层氧化酶活性有明显抑制作用。与对照相比,N24处理下土壤多酚氧化物活性和过氧化物酶活性分别降低了22.4%和12.1%;5-10 cm土层氧化酶活性对氮增加响应不敏感,各施氮量之间差异不显著;两层土壤的蔗糖酶和碱性磷酸酶活性随氮的增加具有先增加再减少的趋势,而两层土壤的脲酶活性和土壤微生物量N随着施氮量增加分别降低和增加;随着土壤酶活性变化,土壤有效氮和微生物量N增加,有效磷先增加后减少。这些响应表明,氮增加可以改变该荒漠土壤系统的土壤酶活性和微生物量并影响土壤相关营养元素循环。
英文摘要	Nitrogen(N)deposition influences microbial decomposition and nutrient transformation rates by affecting the activities of microbial properties,such as soil enzymes,microbial biomass and structure of the microbial community.In desert ecosystems,where water and N are two major limiting factors for biological activity,minimal nutrient dynamics are linked to comparatively large changes.In this paper,an in situ experiment was conducted in Gurbantunggut desert to explore the effects of N deposition on soil enzyme activities and microbial biomass N.Sixty 8 m * 8 m plots were established in the inter-dune area,with each plot having similar vegetation and a biological soil crust cover.Six N fertilizer treatments(N0,N0.5,N1,N3,N6 and N24 denoting 0,0.5,1.0,3.0,6.0 and 24.0 g N m-2 a-1,respectively)were conducted,with ten replicates for each treatment.Nitrogen was applied at the ratio of 2 ∶ 1 for NH+4-N ∶ NO-3-N(informed in NH4NO3 and NH4Cl),consisting with ratio of the main N components in deposition in Urumqi.Soil samples were collected in May 2009 from 24 of the 60 plots with 4 replicates for each treatment(6 N treatments * 4 replicates).Soil samples were taken from two layers(0-5 cm and 5-10 cm)and transported to laboratory quickly.The results showed that original vertical distribution patterns of nutrient,soil enzyme and microbial biomass were not changed by N addition.Soil organic C,total N,total P,available P and available N pools were greater in the 0-5 cm soil layer than in the 5-10 cm layer,regardless of N addition rates.The polyphenol oxidase and peroxidase activities in 0-5 cm soil layer were 14.3%-27.3% and 1.4%-14.2% lower than those in 5-10 cm soil layer,respectively.However,the activities of invertase,urease,alkaline phosphatase(AlP)and microbial biomass N in the 0-5 cm soil layer were 18.0%-98.1%,45.3%-119.0%,76.1%-138.1% and 77.5%-162.4% higher compared with the 5-10 cm layer,respectively.The soil enzyme activities and microbial biomass N were more sensitive to N addition in the 0-5 cm layer than in the 5-10 cm layer.Although low and moderate N levels(N0.5,N1 and N3)have marginal effects on oxidative enzyme activities in the 0-5 cm layer,high N levels(N6 and N24)reduced the activities of oxidative enzyme.With respect to control(N0),the activities of polyphenol oxidase and peroxidase were 22.4% and 12.1% lower under N24.In contrast,the oxidative enzyme activities in the 5-10 cm layer were not sensitive to N addition.With the increase in N addition,both the invertase and AlP activities in the two layers increased at low N addition levels,then they decreased at high N levels.Compared with control,N1 and N3 increased invertase activities in the 0-5 cm layer by 49.6% and 72.3%,respectively;and by 8.6% and 11.4% in the 5-10 cm layer,respectively.AlP activities in the 0-5 cm layer tended to increase at the low N levels(i.e.,N0.5,N1 and N3).Highest increasing rate of 48.6% was found in N3 treatment in comparison to control.Nitrogen additions resulted in increased microbial biomass N,but decreased urease activities.With the changes in soil enzyme activities,cycling of C,N and P altered accordingly.The varying soil organic C under different N treatments may be partially due to the change of oxidative activities.The addition of N lead to the increase of microbial biomass N and available N.Available P increased significantly at low N addition rates while it decreased at high N addition rates in both the soil layers.Our results suggest that N addition or deposition can affect the nutrient flow by changing the soil enzyme activities and microbial biomass in Gurbantunggut desert ecosystem.
中文关键词	氮沉降 ; 土壤酶 ; 微生物量N ; 古尔班通古特沙漠
英文关键词	N deposition soil enzyme microbial biomass N Gurbantunggut desert
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:4225635
来源机构	中国科学院新疆生态与地理研究所
资源类型	期刊论文
条目标识符	http://119.78.100.177/qdio/handle/2XILL650/226936
作者单位	1.中国科学院新疆生态与地理研究所, 中国科学院干旱区生物地理与生物资源重点实验室, 乌鲁木齐, 新疆 830011, 中国; 2.国科学院新疆生态与地理研究所, 中国科学院干旱区生物地理与生物资源重点实验室, 乌鲁木齐, 新疆 830011, 中国
推荐引用方式 GB/T 7714	周晓兵,张元明,陶冶,等. 古尔班通古特沙漠土壤酶活性和微生物量氮对模拟氮沉降的响应[J]. 中国科学院新疆生态与地理研究所,2011,31(12):3340-3349.
APA	周晓兵,张元明,陶冶,&张丙昌.(2011).古尔班通古特沙漠土壤酶活性和微生物量氮对模拟氮沉降的响应.生态学报,31(12),3340-3349.
MLA	周晓兵,et al."古尔班通古特沙漠土壤酶活性和微生物量氮对模拟氮沉降的响应".生态学报 31.12(2011):3340-3349.