Response of typical steppe grassland soil physical and chemical properties to various ecological restoration measures in the Ningxia Loess Hill Region

doi:10.11686/cyxb2018247

Abstract

Abstract: Study of soil physico-chemical properties and their change over time under different grassland ecological restoration practices provides scientific data for use in regional planning. This research compared soil properties under traditionally grazed grassland (Control) and 3 restoration practices in place for 15 years on hill slopes: grazing exclusion by fencing, contour trenching, and short trenches placed in a fish scale pattern. Data on soil particle size, bulk density, fractal D value, water retention, porosity, organic matter, and nitrogen, phosphorous and potassium concentrations were evaluated using principal component analysis and a soil quality comprehensive index (SQI) defining recovery of soil quality under the different measures was constructed. The results indicated: 1) Soils on contour-trenched land had the highest content of clay particles, while the highest content of silt occurred in grazed grassland, and land with fish-scale pits had the highest sand content. The fractal dimension (D value) of soil particle volume ranked in order from highest to lowest contour trenches, grazing exclusion, fish-scale pits and grazed control. Vertical variation through the profile in soil particle size was weak. 2) The highest soil bulk density occurred on the grazed control land (1.14 g·cm^-3), followed by grazing exclusion, contour trenches and fish-scale pit land. Thus, the evaluated remediation practices significantly reduced the soil bulk density and increased soil total porosity and water holding capacity. However, the remediation practices had little effect on soil capillary porosity and non-capillary porosity. The vertical variation soil physical properties was not statistically significant. 3) The soil organic matter, total nitrogen and alkali-nitrogen showed a gradient: grazing exclusion>grazed control>fish-scale pits>contour trenches. The available potassium of soil in grazed control land was higher than with grazing exclusion, and fish-scale pits had the lowest available potassium among the 4 treatments. Soil nutrient concentrations were higher in the upper soil layers. 4) The comprehensive index of soil quality was: grazing exclusion (0.719)>contour trenching (0.348)>grazed control (0.337)>fish-scale pits (0.281). Based on this study of soil physical and chemical properties under the 3 restoration practices, it is concluded that grazing exclusion (fencing) provides the most significant improvement in soil quality and is the most appropriate ecological restoration measure for grassland in the study area.

Key words: enclosure, contour trenches, fish-scale pits, physical and chemical properties of soil, soil quality, typical steppe

SU Ting-ting, MA Hong-bin, ZHOU Yao, JIA Xi-yang, ZHANG Rui, ZHANG Shuang-qiao, HU Yan-li. Response of typical steppe grassland soil physical and chemical properties to various ecological restoration measures in the Ningxia Loess Hill Region[J]. Acta Prataculturae Sinica, 2019, 28(4): 34-46.

References

[1] Jin H F, Shi D M, Chen Z F, et al. Evaluation indicators of cultivated layer soil quality for red soil slope farmland based on cluster and PCA analysis. Transactions of the Chinese Society of Agricultural Engineering, 2018, 34(7): 155-164.
金慧芳, 史东梅, 陈正发, 等. 基于聚类及PCA分析的红壤坡耕地耕层土壤质量评价指标. 农业工程学报, 2018, 34(7): 155-164.
[2] Liu X Y, Mu Y T.Research progress in the ecosystem services function and value of grasslands. Acta Prataculturae Sinica, 2012, 21(6): 286-295.
刘兴元, 牟月亭. 草地生态系统服务功能及其价值评估研究进展. 草业学报, 2012, 21(6): 286-295.
[3] Li Z B, Zhou B, Ma T T, et al. Effects of ecological management on characteristics of soil carbon, nitrogen phosphorus and their stoichiometry in Loess Hilly Region, China. Journal of Soil and Water Conservation, 2017, 31(6): 312-318.
李占斌, 周波, 马田田, 等. 黄土丘陵区生态治理对土壤碳氮磷及其化学计量特征的影响. 水土保持学报, 2017, 31(6): 312-318.
[4] Kang H H, Pan T, Gai A H, et al. Effects of ecological degradation and function in Three Rivers Restoration on soil conservation headwater region. Bulletin of Soil and Water Conservation, 2017, 37(3): 7-14.
康惠惠, 潘韬, 盖艾鸿, 等. 生态退化与恢复对三江源区土壤保持功能的影响. 水土保持通报, 2017, 37(3): 7-14.
[5] Li Y Q, Huo Y S, Zhao Y A, et al. Effects of different measures for improving degraded grassland on the soil carbon and nitrogen stocks in steppe of Inner Mongolia. Chinese Journal of Grassland, 2016, 38(5): 91-95.
李雅琼, 霍艳双, 赵一安, 等. 不同改良措施对退化草原土壤碳、氮储量的影响. 中国草地学报, 2016, 38(5): 91-95.
[6] He Q, Xi H, Wan T.Impact of different artificial vegetation restoration pattern on the physical and chemical properties of desertification grassland in Hongyuan County. Sichuan Environment, 2017, 36(1): 35-40.
何群, 席欢, 万婷. 不同植被恢复模式对红原沙化草地土壤理化性质的影响. 四川环境, 2017, 36(1): 35-40.
[7] Zhao L H, Li C Z, Kang D, et al. Effects of vegetation restoration on soil soluble nitrogen in the Loess Hilly Region. Acta Ecologica Sinica, 2017, 37(10): 3533-3542.
赵路红, 李昌珍, 康迪, 等. 黄土丘陵区植被恢复对土壤可溶性氮组分的影响. 生态学报, 2017, 37(10): 3533-3542.
[8] Pu Y L, Ye C, Zhang S R, et al. Effects of different ecological restoration patterns on labile organic carbon and carbon pool management index of desertification grassland soil in Zoige. Acta Ecologica Sinica, 2017, 37(2): 367-377.
蒲玉琳, 叶春, 张世熔, 等. 若尔盖沙化草地不同生态恢复模式土壤活性有机碳及碳库管理指数变化. 生态学报, 2017, 37(2): 367-377.
[9] Wang Y L, Wang S C, Cai J J, et al. Effects of revegetation on soil quality in Semi-arid Loess Hilly Region. Bulletin of Soil and Water Conservation, 2017, 37(5): 22-26.
王月玲, 王思成, 蔡进军, 等. 半干旱黄土丘陵区退耕地林草植被恢复对土壤质量影响评价. 水土保持通报, 2017, 37(5): 22-26.
[10] Ou Z Y, Shen W H, Pang S L.Assessment of soil quality of different plant communities in the Karst mountains of Ping-guo County, Guangxi. Chinese Journal of Ecology, 2015, 34(10): 2771-2777.
欧芷阳, 申文辉, 庞世龙, 等. 平果喀斯特山地不同植物群落的土壤质量评价. 生态学杂志, 2015, 34(10): 2771-2777.
[11] Zhao N, Meng P, Zhang J S, et al. Soil quality assessment of Robinia psedudoacia plantations with various ages in the grain-for-green program in hilly area of North China. Chinese Journal of Applied Ecology, 2014, 25(2): 351-358.
赵娜, 孟平, 张劲松, 等. 华北低丘山地不同退耕年限刺槐人工林土壤质量评价. 应用生态学报, 2014, 25(2): 351-358.
[12] Dai Y T, Hou X Y, Yan Z J, et al. Soil microbes and the chemical properties of the rhizosphere and non-rhizosphere soil under two types of vegetation restoration in the Hobq sandy land of Inner Mongolia, China. Acta Ecologica Sinica, 2016, 36(20): 6353-6364.
戴雅婷, 侯向阳, 闫志坚, 等. 库布齐沙地两种植被恢复类型根际土壤微生物和土壤化学性质比较研究. 生态学报, 2016, 36(20): 6353-6364.
[13] Wang P F, Jia L T, Du J J, et al. Improvement of soil quality by Chinese dwarf cherry cultivation in the Loess Plateau steep hill region. Acta Prataculturae Sinica, 2017, 26(3): 65-74.
王鹏飞, 贾璐婷, 杜俊杰, 等. 黄土丘陵沟壑区欧李栽植对土壤质量改良作用的评价. 草业学报, 2017, 26(3): 65-74.
[14] Shui W, Bai J P, Jian X M, et al. Changes in water conservation and soil physicochemical properties during the recovery of desertified grassland in Zoigê, China. Acta Ecologica Sinica, 2017, 37(1): 277-285.
税伟, 白剑平, 简小枚, 等. 若尔盖沙化草地恢复过程中土壤特性及水源涵养功能. 生态学报, 2017, 37(1): 277-285.
[15] Xiao J Y, Pu X P, Xu C L.Effects of grazing prohibition on restoration of degraded grassland. Pratacultural Science, 2015, 32(1): 138-145.
肖金玉, 蒲小鹏, 徐长林. 禁牧对退化草地恢复的作用. 草业科学, 2015, 32(1): 138-145.
[16] Wang Y H, Ma T E, Wei Y C, et al. Influence of grazing exclusion on soil organic carbon and nitrogen mineralization in semiarid grasslands of the Loess Plateau. Acta Ecologica Sinica, 2017, 37(2): 378-386.
王玉红, 马天娥, 魏艳春, 等. 黄土高原半干旱草地封育后土壤碳氮矿化特征. 生态学报, 2017, 37(2): 378-386.
[17] Xu Q, Xu Z Q, Wang Y S.Evaluation on the impact of non-grazing on the services of typical steppe ecosystems. Pratacultural Science, 2012, 29(3): 364-369.
许晴, 许中旗, 王英舜. 禁牧对典型草原生态系统服务功能影响的价值评价. 草业科学, 2012, 29(3): 364-369.
[18] Dong L G, Li S B, Jiang Q, et al. Soil moisture storage of different land use types in Ningxia semi-arid loess hilly area. Journal of Arid Land Resources and Environment, 2011, 25(10): 184-189.
董立国, 李生宝, 蒋齐, 等. 宁夏半干旱黄土丘陵区不同土地利用类型土壤贮水量变化分析. 干旱区资源与环境, 2011, 25(10): 184-189.
[19] Li X Y, Zhang W T, Li J G, et al. Effects of five soil management measures on runoff and sediment reduction in Ili Valley of Xinjiang. Science of Soil and Water Conservation, 2017, 15(3): 51-57.
李晓原, 张文太, 李建贵, 等. 伊犁河谷5种土壤管理措施减流减沙效果分析. 中国水土保持科学, 2017, 15(3): 51-57.
[20] Kou M, Jiao J Y, Yin Q L, et al. Water holding capacity and potential nutrient return capacity of main herb species litter in the Hill-Gully Loess Plateau. Acta Ecologica Sinica, 2015, 35(5): 1337-1349.
寇萌, 焦菊英, 尹秋龙, 等. 黄土丘陵沟壑区主要草种枯落物的持水能力与养分潜在归还能力. 生态学报, 2015, 35(5): 1337-1349.
[21] Wang Y L, Wang S C, Cai J J, et al. Vegetation restoration with different land preparation methods in degraded grassland in Semi-arid Loess Hilly Region. Bulletin of Soil and Water Conservation, 2016, 36(5): 80-84.
王月玲, 王思成, 蔡进军, 等.半干旱黄土丘陵区不同整地方式下退化草地植物群落恢复特征.水土保持通报, 2016, 36(5): 80-84.
[22] Soil Physics Institute, Nanjing Institute of Soil Science, Chinese Academy of Sciences. Soil physical properties determination method. Beijing: Science Press, 1978.
中国科学院南京土壤研究所物理研究室. 土壤物理性质测定法. 北京: 科学出版社, 1978.
[23] Bao S D.Analysis of soil agrochemical (Third edition) . Beijing: China Agriculture Press, 2005: 25-109.
鲍士旦. 土壤农化分析(第三版). 北京: 中国农业出版社, 2005: 25-109.
[24] Wang G L, Zhou S L, Zhao Q G.Volume fractal dimension of soil particles and its applications to land use. Acta Pedologica Sinica, 2005, (4): 545-550.
王国梁, 周生路, 赵其国. 土壤颗粒的体积分形维数及其在土地利用中的应用. 土壤学报, 2005, (4): 545-550.
[25] Zhang W R.Forest soil analysis method. Beijing: China Standard Press, 1999: 22-24.
张万儒. 森林土壤分析方法. 北京: 中国标准出版社, 1999: 22-24.
[26] Xu M X, Liu G B, Zhao Y G.Effects of land use and environmental factors on the variability of soil quality indicators hilly Loess Plateau region of China. Chinese Journal of Applied Ecology, 2011, 22(2): 409-417.
许明祥, 刘国彬, 赵允格. 黄土丘陵区土地利用及环境因子对土壤质量指标变异性的影响. 应用生态学报, 2011, 22(2): 409-417.
[27] Bai W J, Zheng F L, Dong L L, et al. Integrated assessment on soil quality in the water-wind erosion region of the Loess Plateau area. Science of Soil and Water Conservation, 2010, 8(3): 28-37.
白文娟, 郑粉莉, 董莉丽, 等. 黄土高原地区水蚀风蚀交错带土壤质量综合评价. 中国水土保持科学, 2010, 8(3): 28-37.
[28] Zheng F L, Zhang F, Wang B.Quantifying soil quality degradation over 100 years after deforestation under erosional environments. Acta Ecologica Sinica, 2010, 30(22): 6044-6051.
郑粉莉, 张锋, 王彬. 近100年植被破坏侵蚀环境下土壤质量退化过程的定量评价. 生态学报, 2010, 30(22): 6044-6051.
[29] Zhang J R, Wang J M, Zhu Y C, et al. Application of fractal theory on pedology: A review. Chinese Journal of Soil Science, 2017, 48(1): 221-228.
张佳瑞, 王金满, 祝宇成, 等.分形理论在土壤学应用中的研究进展.土壤通报, 2017, 48(1): 221-228.
[30] Zheng S H, Zhao M L, Han G D, et al. Relationship between soil properties and vegetations physical in steppe under different grazing Typical Gradients. Journal of Arid Land Resources and Environment, 2005, (S1): 199-203.
郑淑华, 赵萌莉, 韩国栋, 等. 不同放牧压力下典型草原土壤物理性质与植被关系的研究. 干旱区资源与环境, 2005, (S1): 199-203.
[31] Zhao L P, Tan S T, Bai X, et al. Effects of enclosure duration on plant propagation and vegetation regeneration in the semiarid steppe of Yunwu Mountain. Acta Prataculturae Sinica, 2017, 26(10): 1-9.
赵凌平, 谭世图, 白欣, 等. 封育年限对云雾山典型草原植物繁殖与植被更新的影响. 草业学报, 2017, 26(10): 1-9.
[32] Wei W D, Liu Y H, Ma H, et al. Relationships between soil factors and grassland degradation on an alpine grassland based on redundancy analysis. Pratacultural Science, 2018, 35(3): 472-481.
魏卫东, 刘育红, 马辉, 等. 基于冗余分析的高寒草原土壤与草地退化关系. 草业科学, 2018, 35(3): 472-481.
[33] Chu X H, Xie Y, Shan G L, et al. Effect of management patterns on community structure and species diversity of subalpine meadow of the southern margin of Tibetan Plateau. Acta Agrestia Sinica, 2017, 25(5): 939-945.
初晓辉, 谢勇, 单贵莲, 等. 放牧和封育对青藏高原南缘亚高山草甸群落结构及物种多样性的影响.草地学报, 2017, 25(5): 939-945.
[34] Tenzin T C, Baima G W, Duoji D Z, et al. Effects of livestock exclusion duration years on plant and soil properties in a Tibetan alpine meadow. Pratacultural Science, 2018, 35(1): 10-17.
旦增塔庆, 白玛嘎翁, 多吉顿珠, 等. 围封年限对西藏高寒草甸植被特征与土壤养分的影响. 草业科学, 2018, 35(1): 10-17.
[35] Zhao L P, Bai X, Tan S T, et al. Effects of different enclosure durations on aboveground vegetation in typical steppe on Loess Plateau. Pratacultural Science, 2018, 35(1): 27-35.
赵凌平, 白欣, 谭世图, 等. 不同年限封育对黄土高原典型草原地上植被的影响. 草业科学, 2018, 35(1): 27-35.
[36] Li J F, Liu L, Xue L P, et al. Effects of cerasus humilis on soil fractal characteristics and erodibility on sloping cropland in Loess Hilly and Gully Region. Bulletin of Soil and Water Conservation, 2017, 37(2): 21-26.
李金峰, 刘林, 薛丽萍, 等. 黄土丘陵沟壑区欧李人工林对坡面土壤分形特征及可蚀性的影响. 水土保持通报, 2017, 37(2): 21-26.
[37] Guo H L, Sun L Q, Wu S F, et al. Erosion evolution processes and hydraulic characteristics analysis of Fish-scale Pit Slop on Loess Plateau Region. Acta Pedologica Sinica, 2017, 54(5): 1125-1135.
郭慧莉, 孙立全, 吴淑芳, 等. 黄土高原地区鱼鳞坑坡面侵蚀演化过程及水力学特征. 土壤学报, 2017, 54(5): 1125-1135.
[38] Su J S, Zhao J, Jing G H, et al. Root pattern of stipa plants in semiarid grassland after long-term grazing exclusion. Acta Ecologica Sinica, 2017, 37(19): 6571-6580.
苏纪帅, 赵洁, 井光花, 等. 半干旱草地长期封育进程中针茅植物根系格局变化特征. 生态学报, 2017, 37(19): 6571-6580.
[39] Zhao X D, Zeng Q C, An S S, et al. Ecological stoichiometric characteristics of grassland soils and plant roots relative to enclosure history on the Loess Plateau. Acta Pedologica Sinica, 2016, 53(6): 1541-1551.
赵晓单, 曾全超, 安韶山, 等. 黄土高原不同封育年限草地土壤与植物根系的生态化学计量特征. 土壤学报, 2016, 53(6): 1541-1551.
[40] Zuo W Q, Wang Y H, Wang F Y, et al. Effects of enclosure on the community characteristics of Leymus chinensis in degenerated steppe. Acta Prataculturae Sinica, 2009, 18(3): 12-18.
左万庆, 王玉辉, 王风玉, 等. 围栏封育措施对退化羊草草原植物群落特征影响研究. 草业学报, 2009, 18(3): 12-18.
[41] Yang H L, Sun Z J, Guan G Y, et al. Effects of enclosure on soil nutrients of Seriphidium transiliense Desert Grassland. Chinese Journal of Grassland, 2015, 37(2): 107-111.
杨合龙, 孙宗玖, 管光玉, 等. 封育对伊犁绢蒿荒漠草地土壤养分的影响. 中国草地学报, 2015, 37(2): 107-111.
[42] Yin Y L, Wang Y Q, Li S X, ,et al. Influences of enclosing on soil microbial community diversity. Influences of enclosing on soil microbial community diversity and stoichiometric characteristics in a degraded alpine meadow. Chinese Journal of Ecology. https://doi.org/10.13287/j.1001-9332.201902.006
尹亚丽, 王玉琴, 李世雄, 等. 围封对退化高寒草甸土壤微生物群落多样性及土壤化学计量特征的影响. 应用生态学报, https://doi.org/10.13287/j.1001-9332.201902.006.
[43] Hu Y Y, Wu Y N, Huo G W, et al. Vegetation and soil characteristics of plant community micro-patches under different grazing intensities. Chinese Journal of Ecology, 2018, 37(1): 9-16.
胡艳宇, 乌云娜, 霍光伟, 等. 不同放牧强度下羊草草原群落斑块植被-土壤特征. 生态学杂志, 2018, 37(1): 9-16.
[44] Niu Y J, Yang S W, Wang G Z, et al. Relation between species distribution of plant community and soil factors under grazing in alpine meadow. Chinese Journal of Applied Ecology, 2017, 28(12): 3891-3898.
牛钰杰, 杨思维, 王贵珍, 等. 放牧作用下高寒草甸群落物种分布与土壤因子的关系. 应用生态学报, 2017, 28(12): 3891-3898.
[45] Luo Y Q, Zhao X Y, Wang T, et al. Plant root decomposition and its responses to biotic and abiotic factors. Acta Prataculturae Sinica, 2017, 26(2): 197-207.
罗永清, 赵学勇, 王涛, 等. 植物根系分解及其对生物和非生物因素的响应机理研究进展. 草业学报, 2017, 26(2): 197-207.
[46] Zhang Y F, Chen L, Yang X G, et al. Effects of grazing and fencing on soil physicochemical properties in Desert Grassland. Northern Horticulture, 2017, (1): 171-176.
张义凡, 陈林, 杨新国, 等. 围封与放牧对荒漠草原土壤理化性质的影响. 北方园艺, 2017, (1): 171-176.
[47] Huang T, Yue X J, Ge X Z, et al. Evaluation of soil quality on gully region of Loess Plateau based on principal component analysis. Agricultural Research in the Arid Areas, 2010, 28(3): 141-147, 187.
黄婷, 岳西杰, 葛玺祖, 等. 基于主成分分析的黄土沟壑区土壤肥力质量评价——以长武县耕地土壤为例. 干旱地区农业研究, 2010, 28(3): 141-147, 187.
[48] Li G L, Chen J, Sun Z Y, et al. Establishing a minimum dataset for soil quality assessment based on soil properties and land use change. Acta Ecologica Sinica, 2007, (7): 2715-2724.
李桂林, 陈杰, 孙志英, 等. 基于土壤特征和土地利用变化的土壤质量评价最小数据集确定. 生态学报, 2007, (7): 2715-2724.