不同植被模式对矿山废弃地表层土壤性质的影响

doi:10.16843/j.sswc.2023074

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摘要为揭示露天矿山废弃地不同原生植被对地表土壤的影响规律,探索其适宜的植被恢复模式,选取山东省泰安市东平县金山矿区“狗牙根(G)”“酸枣+狗牙根(SG)”“酸枣+荆条+狗牙根(SJG)”“臭椿+榆树+酸枣+狗牙根(CYSG)”4种植被模式为研究对象,并以裸地为对照,测定土壤密度、土壤持水量、孔隙度等土壤物理参数和有机碳、碱解氮、有效磷、速效钾等土壤养分指标,运用主成分分析和模糊数学隶属函数方法,综合评价不同植被模式对其表层土壤的影响。结果表明:1)植被模式对露天矿山废弃地的土壤水分物理特征影响明显,土壤含水量和孔隙度与裸地相比均出现不同程度的增加,表现为SJG>CYSG>SG>G,土壤密度与裸地相比显著降低,表现为SJGCYSG>SG>G,土壤全磷与有效磷含量的大小顺序为CYSG>SJG>SG>G。植被混交模式对矿山废弃地土壤水分物理与土壤养分的影响优于裸地与单一植被模式,不同植被模式的综合改良效果为SJG>CYSG>SG>G。

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	张可
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	刘传林
	张军
	魏守才
	徐海东
	高芳磊
	夏江宝

关键词 ：林草措施, 矿区修复, 土壤水分, 土壤孔隙, 土壤养分

Abstract：[Background] In order to explore the suitable vegetation types for improving the soil quality of open-pit abandoned land, four forest-grass composite types of Cynodon dactylon (G), Ziziphus jujuba + C. dactylon (SG), Z. jujuba + Vitex negundo + C. dactylon (SJG), and Ailanthus altissima + Ulmus pumila + Z. jujuba + C. dactylon (CYSG) were used as the dominant plants in Jinshan mining area of Dongping county, Tai'an city.[Methods] Based on the 4 typical shrub-grass communities with the bare land in the same section as a control, and 3 soil samples of 0-20 cm soil layer using 5-point method were collected in eachplot. Physical parameters such as soil bulk, porosity, moisture content and soil nutrient indexes such as organic carbon, available nitrogen, total phosphorus and total potassium were determined. Correlation analysis was conducted to explore the interaction among soil factors in different vegetation type. Principal component analysis was conducted and fuzzy mathematical affiliation function method was used to evaluate the potential effects of different vegetation types on soil improvement.[Results] 1) Vegetation cover significantly improveed soil quality, and different vegetation types had different effects on soil quality. 2) Vegetation coverage significantly improved the soil physicochemical properties and increased the soil porosity and moisture content in the abandoned land of the open pit mine, with the highest soil saturated water-holding capacity was measured in the SJG model, which was 65.99 % higher compared to the bare land. 3) Soil organic carbon, total phosphorus, available phosphorus, total potassium, available potassium and available nitrogen content significantly increased. Soil organic carbon and available nitrogen increased by 546.22 % and 652.97 %, respectively, in the SJG model compared to bare ground. Soil total phosphorus and available phosphorus content increased by 140.95 % and 493.44 %, respectively, in the CYSG model compared to bare ground. Soil total potassium and available potassium content were the highest in SJG model and CYSG model.[Conclusions] The mixed forest-grass model was better than the bare ground and single vegetation restoration model in improving the soil moisture and physical and soil nutrients of abandoned mine land. The comprehensive improvement effect of different vegetation types on the abandoned land of open pit mine in Jinshan mine area of Dongping County was SJG>CYSG>SG>G.

Key words： forest and grass measures mining area restoration soil moisture soil porosity soil nutrient

收稿日期: 2023-04-17

PACS:	Q948.113
	S157

基金资助:泰山学者工程专项“植物对水盐环境的响应过程与适应机制研究”(TSQN201909152);山东高速鸿林工程技术有限公司黄河流域(下游)石灰岩露采矿区植被恢复与生态修复关键技术研究项目(SDGSHL209)

通讯作者: 夏江宝(1978-),男,博士,教授。主要研究方向:植被恢复与生态修复。E-mail:xiajb@163.com E-mail: xiajb@163.com

作者简介: 张可(2000-),女,硕士研究生。主要研究方向:生态修复机理与技术。E-mail:ZhangKe056@163.com

引用本文:

张可, 郑岩, 刘传林, 张军, 魏守才, 徐海东, 高芳磊, 夏江宝. 不同植被模式对矿山废弃地表层土壤性质的影响[J]. 中国水土保持科学, 2024, 22(2): 131-137.
ZHANG Ke, ZHENG Yan, LIU Chuanlin, ZHANG Jun, WEI Shoucai, XU Haidong, GAO Fanglei, XIA Jiangbao. Effects of different vegetation types on the surface soil properties of mine waste site. SSWC, 2024, 22(2): 131-137.

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http://journal12.magtechjournal.com/Jweb_stbc/CN/10.16843/j.sswc.2023074 或 http://journal12.magtechjournal.com/Jweb_stbc/CN/Y2024/V22/I2/131

[1]	肖栋,毕银丽,于立安,等.神华宝日希勒露天矿排土场生态修复中物种引种的关键气候因素[J].华南师范大学学报(自然科学版), 2021, 53(3):73. XIAO Dong, BI Yinli, YU Li'an, et al. Key climate factors in speciesintroduction for ecological reconstruction of the dump site of Shenhua Baorixile open-pit[J]. Journal of South China Normal University (Natural Science Edition), 2021, 53(3):73.
[2]	周文亮,白俞.矿山生态环境修复方法探究[J].世界有色金属, 2019(21):220. ZHOU Wenliang, BAI Yu. Study on the method of mine ecological environment[J]. World Nonferrous Metals, 2019(21):220.
[3]	孙佳,夏江宝,苏丽,等.黄河三角洲盐碱地不同植被模式的土壤改良效应[J].应用生态学报, 2020, 31(4):1323. SUN Jia, XIA Jiangbao, SU Li, et al. Soil amelioration of different vegetation types in saline-alkali land of the Yellow River Delta, China[J]. Chinese Journal of Applied Ecology, 2020, 31(4):1323.
[4]	李剑韬,叶汉逵.矿山污染生态修复技术[J].湖南林业科技, 2018, 45(2):66. LI Jiantao, YE Hankui. Mine pollution ecological restoration technology[J]. Hunan Forestry Science&Technology, 2018, 45(2):66.
[5]	赵默涵.矿山废弃地土壤基质改良研究[J].中国农学通报, 2008, 24(12):128. ZHAO Mohan. The research on amelioration of soil in the mining wasteland[J]. Chinese Agricultural Science Bulletin, 2008, 24(12):128.
[6]	郑江坤,张鸽,曾倩婷,等.弃渣场边坡草本植物根系力学及土壤抗冲性特征[J].中国水土保持科学, 2022, 20(6):59. ZHENG Jiangkun, ZHANG Ge, ZENG Qianting, et al. Mechanical characteristics ofherbaceous roots and soil anti-scourability on the slope of dump yards[J]. Science of Soil and Water Conservation, 2022, 20(6):59.
[7]	张进德,郗富瑞.我国废弃矿山生态修复研究[J].生态学报, 2020, 40(21):7921. ZHANG Jinde, CHI Furui. Study on ecological restoration of abandoned mines in China[J]. Acta Ecologica Sinica, 2020, 40(21):7921.
[8]	张鸿龄,孙丽娜,孙铁珩,等.矿山废弃地生态修复过程中基质改良与植被重建研究进展[J].生态学杂志, 2012, 31(2):460. ZHANG Hongling, SUN Lina, SUN Tieheng, et al. Substrate amelioration and vegetation reconstruction in ecological remediation of abandoned mines:Research advances[J]. Chinese Journal of Ecology, 2012, 31(2):460.
[9]	BAUMAN J M, KEIFFER C H, MCCARTHY B C. Growth performance and chestnut blight incidence (Cryphonectria parasitica) of backcrossed chestnut seedlings in surface mine restoration[J]. New Forests, 2014, 45(6):813.
[10]	夏江宝,刘玉亭,朱金方,等.黄河三角洲莱州湾柽柳低效次生林质效等级评价[J].应用生态学报, 2013, 24(6):1551. XIA Jiangbao, LIU Yuting, ZHU Jinfang, et al. Quality level assessment of lowly efficient Tamarix chinensis secondary shrubs in Laizhou Bay of Yellow River Delta[J]. Chinese Journal of Applied Ecology, 2013, 24(6):1551.
[11]	付玲,王彩云,尹少华.蘑菇渣基质生产狗牙根无土草皮配方施肥优化研究[J].草业学报, 2013, 22(3):241. FU Ling, WANG Caiyun, YIN Shaohua. Optimizing fertilisation for bermudagrass soilless sod using spent mushroom compost as the main substrate over plastic[J]. Acta Prataculturae Sinica, 2013, 22(3):241.
[12]	DELGADO M E, CANTERS F. Modeling the impacts of agroforestry systems on the spatial patterns of soil erosion risk in three catchments of Claveria, the Philippines[J]. Agroforestry Systems, 2012, 85:411.
[13]	黎炜.煤矿充填复垦区土壤肥力质量变化与地下水重金属污染研究[D].北京:中国矿业大学, 2011. LI Wei. Study on Changes of soil fertility quality and groundwater heavy metals pollution in coal mine filled reclamation area[D]. Beijing:China University of Mining and Technology, 2011.
[14]	李亚鸽,赵威,郭帅,等.不同类型土壤中酸枣的生物量构成与碳氮特征[J].草业科学,2017,34(8):1677. LI Yage, ZHAO Wei, GUO Shuai, et al. Analysis of biomass compositions and C, N characteristics of wild jujube in different soil types[J]. Pratacultural Science, 2017,34(8):1677.
[15]	何云,周义贵,李贤伟,等.台湾桤木林草复合模式土壤微生物量碳季节动态[J].林业科学, 2013, 49(7):26. HE Yun, ZHOU Yigui, LI Xianwei, et al. Seasonal dynamics of soil microbial biomass carbon in Alnus formosana forest-grass compound models[J]. Scientia Silvae Sinicae, 2013, 49(7):26.
[16]	MICHEL G A, NAIR V D, NAIR PKR. Silvopasture for reducing phosphorus loss from subtropical sandy soils[J]. Plant and Soil, 2007, 297:267.
[17]	CHO K, BEON M, JEONG J. Dynamics of soil salinity and vegetation in a reclaimed area in Saemangeum, Republic of Korea[J]. Geoderma, 2018, 321:42.