PDF下载

[1]张娇阳,何俐蓉,李袁泽,等.黄土丘陵区不同坡向土壤球囊霉素类相关土壤蛋白的分布特征[J].水土保持研究,2019,26(06):65-70,79.
　ZHANG Jiaoyang,HE Lirong,LI Yuanze,et al.Distribution Characteristics of Glomalin-Related Soil Protein in Different Slope Aspects of the Loess Hilly Region[J].Research of Soil and Water Conservation,2019,26(06):65-70,79.

点击复制

黄土丘陵区不同坡向土壤球囊霉素类相关土壤蛋白的分布特征

《水土保持研究》[ISSN:1005-3409/CN:61-1272/P] 卷: 26 期数: 2019年06期页码: 65-70,79 栏目: 出版日期: 2019-10-17

Title:: Distribution Characteristics of Glomalin-Related Soil Protein in Different Slope Aspects of the Loess Hilly Region

作者:: 张娇阳^1,2, 何俐蓉⁴, 李袁泽^3,5, 乔磊磊³, 薛萐^1,3, 刘国彬^1,3; 1. 中国科学院水利部水土保持研究所黄土高原土壤侵蚀与旱地农业国家重点实验室, 陕西杨凌 712100;
2. 中国科学院大学, 北京 100049;
3. 西北农林科技大学水土保持研究所, 陕西杨凌 712100;
4. 陕西地建土地工程技术研究院有限责任公司, 西安 710075

Author(s):: ZHANG Jiaoyang^1,2, HE Lirong⁴, LI Yuanze^3,5, QIAO Leilei³, XUE Sha^1,3, LIU Guobin^1,3; 1. State Key Laboratory of Soil Erosion and Dryland Farming on the Loess Plateau, Institute of Soil and Water Conservation, CAS & MWR, Yangling, Shaanxi 712100, China;
2. University of Chinese Academy of Sciences, Beijing 100049, China;
3. Institute of Soil and Water Conservation, Northwest A & F University, Yangling, Shaanxi 712100, China;
4. Institute of Land Engineering and Technology, Shaanxi Provincial Land Engineering Construction Group Co., Ltd., Xi’an 710075, China

关键词:: 球囊霉素类相关蛋白; 坡向; 根际效应

Keywords:: glomalin-related soil protein; slope aspect; rhizosphere effect

分类号:: S154.38

摘要:: 为研究坡向对土壤球囊霉素相关蛋白（GRSP）的影响，选取了3个弃耕年限相同、立地条件相似，仅坡向不同的天然草地为试验地，坡向分别为阳坡（S15°W）、半阳坡（N75°W）、阴坡（N57°E）。首先对3个坡向的典型植物群落进行了植被调查，然后采集了优势物种的根际土与非根际土并进行测定。结果表明：不同坡向土壤GRSP含量整体表现为阳坡 > 半阳坡 > 阴坡，其中阴坡土壤T-GRSP含量较阳坡、半阳坡显著减少；不同物种对土壤GRSP含量无显著差异；T-GRSP呈现较强的根际效应，EE-GRSP则较弱。研究表明GRSP与坡向呈负相关，与物种和根际作用正相关，根际作用强于物种。

Abstract:: In order to study the effects of slope aspect on soil Glomalin-related soil protein (GRSP), three natural grasslands with the same site conditions which are located in sunny slope (S15°W), half sunny slope (N75°W) and shady slopes (N57°E) were selected. The rhizosphere soil and non-rhizosphere soil of the dominant species were measured after the vegetation investigation of the typical plant communities in three slopes. The results show that the GRSP content of different slopes decreases in the order:sunny slope > half-sunny slope > shady slope, and the content of T-GRSP in shady slope is significantly reduced compared with that in sunny and half sunny slope. There was no significant difference in GRSP content between different species pairs. T-GRSP has a strong rhizosphere effect, and EE-GRSP has a weak rhizosphere effect. GRSP is negatively correlated with slope aspect but is positively correlated with species and rhizosphere effect, and the rhizosphere effect is stronger than species.

参考文献/References:

[1] Wright S F, Upadhyaya A. Extraction of an abundant and unusual protein from soil and comparison with hyphal protein of arbuscular mycorrhizal fungi[J]. Soil science, 1996,161(9):575-586.
[2] 何开平,杜鹏,吴强盛.球囊霉素相关土壤蛋白提取条件的优化[J].长江大学学报:自然科学版,2015,12(33):25-28.
[3] 黄艺,王东伟,蔡佳亮,等.球囊霉素相关土壤蛋白根际环境功能研究进展[J].植物生态学报,2011,35(2):232-236.
[4] 田慧,刘晓蕾,盖京苹,等.球囊霉素及其作用研究进展[J].土壤通报,2009,40(5):1215-1220.
[5] Franzluebbers A J, Wright S F, Stuedemann J A. Soil aggregation and glomalin under pastures in the Southern Piedmont USA[J]. Soil Science Society of America Journal, 2000,64(3):1018-1026.
[6] Rillig M C, Wright S F, Eviner V T. The role of arbuscular mycorrhizal fungi and glomalin in soil aggregation:comparing effects of five plant species[J]. Plant & Soil, 2002,238(2):325-333.
[7] Rillig M C, Mummey D L. Mycorrhizas and soil structure[J]. New Phytologist, 2006,171(1):41-53.
[8] Wright S F, Nichols K A. Glomalin:hiding place for a third of the world’s stored soil carbon[J]. Agricultural Research, 2002,50(9):4-7.
[9] 李法云,臧树良,罗义.污染土壤生物修复技术研究[J].生态学杂志,2003(1):35-39.
[10] Spiro T G. Copper Proteins[M]. New York:John Wiley and Sons Ltd.,1981.
[11] Ross S M. Toxic Metals in Soil-Plant Systems[M]. London:John Wiley and Sons Ltd.,1994.
[12] Gardea-Torresdey J L, Cano-Aguilera I, Webb R, et al. Enhanced copper adsorption and morphological alterations of cells of copper-stressed Mucor rouxii[J]. Environmental Toxicology and Chemistry, 1997,16(3):435-441.
[13] Driver J D, Holben W E, Rillig M C. Characterization of glomalin as a hyphal wall component of arbuscular mycorrhizal fungi[J]. Soil Biology & Biochemistry, 2005,37(1):101-106.
[14] 王诚煜,冯海艳,杨忠芳,等.内蒙古中北部球囊霉素相关土壤蛋白的分布及其环境影响[J].干旱区研究,2013,30(1):22-28.
[15] 阙弘,葛阳洋,康福星,等.南京典型利用方式土壤中球囊霉素含量及剖面分布特征[J].土壤,2015,47(4):719-724.
[16] 仲召亮,王文杰,张文天,等.不同林分及农田土壤中球囊霉素蛋白组成特征差异研究[J].北京林业大学学报,2016,38(4):107-115.
[17] 孙丽,陈焕伟,潘家文.运用DEM剖析土地利用类型的分布及时空变化:以北京延庆县为例[J].山地学报,2004,22(6):762-766.
[18] Ai Z, He L, Xin Q, et al. Slope aspect affects the non-structural carbohydrates and C:N:P stoichiometry of Artemisia sacrorum, on the Loess Plateau in China[J]. Catena, 2017,152:9-17.
[19] Messing I, Chen L, Hessel R. Soil conditions in a small catchment on the Loess Plateau in China[J]. Catena, 2003,54(1/2):45-58.
[20] 杨婷.坡向对土壤微生物特征与生态化学计量特征的影响研究[D].陕西杨凌:西北农林科技大学,2016.
[21] 鲍士旦.土壤农化分析[M].北京:中国农业出版社,2000.
[22] Wright S F, Upadhyaya A, Buyer J S. Comparison of N-linked oligosaccharides of glomalin from arbuscular mycorrhizal fungi and soils by capillary electrophoresis[J]. Soil Biology & Biochemistry, 1998,30(13):1853-1857.
[23] Gong X, Brueck H, Giese K M, et al. Slope aspect has effects on productivity and species composition of hilly grassland in the Xilin River Basin, Inner Mongolia, China[J]. Journal of Arid Environments, 2008,72(4):483-493.
[24] 祁建,马克明,张育新.北京东灵山不同坡位辽东栎(Quercus liaotungensis)叶属性的比较[J].生态学报,2008,28(1):122-128.
[25] Bennie J, Huntley B, Wiltshire A, et al. Slope, aspect and climate:Spatially explicit and implicit models of topographic microclimate in chalk grassland[J]. Ecological Modelling, 2008,216(1):47-59.
[26] Sidari M, Ronzello G, Vecchio G, et al. Influence of slope aspects on soil chemical and biochemical properties in a Pinus laricio forest ecosystem of Aspromonte(Southern Italy)[J]. European Journal of Soil Biology, 2008,44(4):364-372.
[27] Egli M, Mirabella A, Sartori G, et al. Effect of north and south exposure on weathering rates and clay mineral formation in Alpine soils[J]. Catena, 2006,67(3):155-174.
[28] Schoorl J M, Fayos C B, Meijer R J D, et al. The Cs technique applied to steep Mediterranean slopes(Part I):the effects of lithology, slope morphology and land use[J]. Catena, 2004,57(1):15-34.
[29] Mulla D J. Mapping and managing spatial patterns in soil fertility and crop yield[C]//Ronert P C, Rust R H, Larson W E. Soil Specific Crop Management. Madison, USA,1993.
[30] Yimer F, Ledin S, Abdelkadir A. Soil organic carbon and total nitrogen stocks as affected by topographic aspect and vegetation in the Bale Mountains, Ethiopia[J]. Geoderma, 2006,135:335-344.
[31] Huang Y M, Liu D, An S S. Effects of slope aspect on soil nitrogen and microbial properties in the Chinese Loess region[J]. Catena, 2015,125:135-145.
[32] Rausch C, Daram P, Brunner S, et al. A phosphate transporter expressed in arbuscule-containing cells in potato[J]. Nature, 2001,414(6862):462-470.
[33] 孔刚,王全九,樊军.坡度对黄土坡面养分流失的影响试验研究[J].水土保持学报,2007,21(3):14-18.
[34] Sternberg M, Shoshany M. Influence of slope aspect on Mediterranean woody formations:Comparison of a semiarid and an arid site in Israel[J]. Ecological Research, 2001,16(2):335-345.
[35] Martínez J A, Armesto J J. Ecophysiological plasticity and habitat distribution in three evergreen sclerophyllous shrubs of the Chilean matorral[J]. Acta Oecologica:Oecologia Plantarum, 1983,4(3):211-219.
[36] Kohler J, Caravaca F, Roldán A. Effect of drought on the stability of rhizosphere soil aggregates of Lactuca sativa grown in a degraded soil inoculated with PGPR and AM fungi[J]. Applied Soil Ecology, 2009,42(2):160-165.
[37] Hammer E C, Rillig M C. The influence of different stresses on glomalin levels in an arbuscular mycorrhizal fungus-salinity increases glomalin content[J]. PLoS One, 2011,6(12), DOI:10.1371/journal. pone.0028426.
[38] 李勇,黄小芳,丁万隆.根系分泌物及其对植物根际土壤微生态环境的影响[J].华北农学报,2008,23(S1):182-186.
[39] 廖德华,刘俊丽,刘健健,等.植物激素响应和调控丛枝菌根共生研究进展[J].植物营养与肥料学报,2016,22(6):1679-1689.
[40] 刘永俊.扰动对AM真菌群落影响及机制研究[D].兰州:兰州大学,2012.
[41] 李雪静,徐天乐,陈保冬,等.荒漠和草原生态系统丛枝菌根真菌多样性和群落结构[J].生态学杂志,2017,36(10):2734-2743.
[42] 王建,周紫燕,凌婉婷.球囊霉素相关土壤蛋白的分布及环境功能研究进展[J].应用生态学报,2016,27(2):634-642.
[43] Wright S F, Upadhyaya A. A survey of soils for aggregate stability and glomalin, a glycoprotein produced by hyphae of arbuscular mycorrhizal fungi[J]. Plant & Soil, 1998,198(1):97-107.
[44] 韩炜,李自峰,郑黎明,等.黄土丘陵区不同坡向柠条林地土壤水分动态研究[J].山东林业科技,2007(3):3-5.
[45] 马祥华,焦菊英.黄土丘陵沟壑区退耕地自然恢复植被特征及其与土壤环境的关系[J].中国水土保持科学,2005,3(2):15-22.

相似文献/References:

[1]李勉,姚文艺,李占斌.黄土丘陵区坡向差异及其在生态环境建设中的意义[J].水土保持研究,2004,11(01):37.
　LI Mian,YAO Wen-yi,LI Zhan-bin.Significance of Aspect in Eco-environment Construction in Loess Hilly Area[J].Research of Soil and Water Conservation,2004,11(06):37.
[2]陈贺,李原园,杨志峰,等.地形因素对降水分布影响的研究[J].水土保持研究,2007,14(01):119.
　CHEN He,LI Yuan-yuan,YANG Zhi-feng,et al.Research on the Relationship Between Terrain Factors and Precipitation[J].Research of Soil and Water Conservation,2007,14(06):119.
[3]潘刚,任毅华,边巴多吉,等.西藏色季拉山急尖长苞冷杉林枯枝落叶及苔藓层的生物量与持水性能[J].水土保持研究,2008,15(05):81.
　PAN Gang,REN Yi-hua,Bianbaduoji,et al.The Water Holding Capacity of Moss and Litter Layers of Abies Georgei Forest of Mount Sejila in Tibet[J].Research of Soil and Water Conservation,2008,15(06):81.
[4]王峰,王春梅.地形因子与DEM分辨率关系的初步研究——以蒙阴县为例[J].水土保持研究,2009,16(04):225.
　WANG Feng,WANG Chun-mei.Research for the Influences of DEM Resolution on Topographical Factors—A Case Study of Mengyin County[J].Research of Soil and Water Conservation,2009,16(06):225.
[5]李婧,李占斌,李鹏,等.黄土高原丘陵沟壑区退耕生态系统土壤水分动态变化规律研究[J].水土保持研究,2009,16(05):153.
　LI Jing,LI Zhan-bin,LI Peng,et al.Dynamic Changes of Soil Moisure on the Recultivated Ecosystem in the Loess Hilly-Gully Region[J].Research of Soil and Water Conservation,2009,16(06):153.
[6]潘占兵,余峰,王占军,等.宁南黄土丘陵区坡向、坡位对苜蓿地土壤含水量时空变异的影响[J].水土保持研究,2010,17(02):141.
　PAN Zhan-bing,WANG Zhan-jun,LI Sheng-bao,et al.Effects of Slope Aspect and Position on Temporal and Spatial Variation of Soil Water Content on Alfalfa Land in Loess Hilly Region of South Ningxia Hui Autonomous Region[J].Research of Soil and Water Conservation,2010,17(06):141.
[7]蔡柯柯,何政伟,倪忠云,等.基于RS和GIS的彭州市震毁土地信息提取及分析[J].水土保持研究,2010,17(04):43.
　CAI Ke-ke,HE Zheng-wei,NI Zhong-yun,et al.Extraction and Analysis of Destroyed Land Information of Pengzhou Based on RS and GIS[J].Research of Soil and Water Conservation,2010,17(06):43.
[8]陈吉龙,武伟,刘洪斌.DEM内插算法对坡度坡向的影响[J].水土保持研究,2008,15(06):14.
　CHEN Ji-long,WU Wei,LIU Hong-bin.Effect of DEM Interpolation on the Slope and Aspect[J].Research of Soil and Water Conservation,2008,15(06):14.
[9]李勉,姚文艺,史学建.淤地坝拦沙减蚀作用与泥沙沉积特征研究[J].水土保持研究,2005,12(05):107.
　LI Mian,YAO Wen-yi,SHI Xue-jian.Study on the Effect of Silt Dams for Conserving Soil and Water and Its Sedimentation Characteristic[J].Research of Soil and Water Conservation,2005,12(06):107.
[10]佘波,武晓红.太原东山试验林场土壤理化性质及饱和导水率的坡向分异规律研究[J].水土保持研究,2016,23(01):56.
　SHE Bo,WU Xiaohong.Slope-Aspect Driven Variation of Soil Physicochemical Properties and Saturated Hydraulic Conductivity in Dongshan Experimental Forest Farm of Taiyuan City[J].Research of Soil and Water Conservation,2016,23(06):56.

备注/Memo

收稿日期:2018-05-28;改回日期:2019-02-22。
基金项目:十三五国家重点研发计划（2016YFC0501707）；国家自然科学基金（41771557）；中科院西部青年学者项目（XAB2015A05）
作者简介:张娇阳(1989-),女,河南驻马店人,博士研究生,研究方向为土壤微生物生态。E-mail:923236882@qq.com
通讯作者:刘国彬(1958-),男,陕西榆林人,研究员,主要从事生态恢复研究。E-mail:gbliu@ms.iswc.ac.cn

更新日期/Last Update: 1900-01-01