姓 名:张晓曦
院 系:生命科学学院
职 称:副教授
邮 箱:zhangxiaoxi712100@gmail.com
研究领域:林草生态系统养分循环、污染土壤修复
个人简介
张晓曦,男,1990年6月生,内蒙古锡林郭勒盟人。博士,副教授,硕士生导师。2012年毕业于西北农林科技大学资源环境学院,获农学学士学位;同年保送至西北农林科技大学水土保持研究所硕博连读,2017年6月毕业获农学博士学位,2017年7月进入延安大学生命科学学院工作,2019年晋升为副教授,2024年度陕西省青年科技新星。以第一或通讯作者发表论文50余篇,主持国家级科研项目2项、省级科研项目3项,其余科研项目多项。指导研究生9名,已毕业4名,其中3名获硕士研究生国家奖学金,2名获延安大学硕士研究生优秀毕业论文。代表性成果主持科研项目:
[1] 国家自然科学基金委员会, 地区科学基金项目. 立枯阶段对草地凋落物分解转化过程的影响机制研究——以半干旱黄土丘陵区铁杆蒿凋落物分解为例[J]. 2024-01-01~2027-12-31, 32360290, 32万元,在研: 主持.
[2] 国家自然科学基金委员会, 青年科学基金项目. 黄土丘陵沟壑区典型人工林植被恢复过程对林地凋落物分解的影响机理研究[J]. 2019-01-01~2021-12-31, 31800370, 24万元,结题: 主持.
[3] 陕西省科学技术厅, 陕西省创新能力支撑计划. 黄土丘陵区不同恢复阶段撂荒草地凋落物分解对氮沉降的响应机制研究[J]. 2024-01-01~2025-12-31, 2024ZC-KJXX-006, 10万元,在研: 主持.
[4] 陕西省科学技术厅, 陕西省自然科学基础研究计划面上项目. 植被恢复过程中林下凋落物变化对刺槐自然更新的影响机理研究[J]. 2023-01-01~2024-12-31, 2023-JC-YB-173, 5万元,结题: 主持.
[5] 陕西省科学技术厅, 陕西省自然科学基础研究计划. 陕北适生植物组合及其混合枯落物对石油污染土壤的修复效应研究[J]. 2018-01-01~2019-12-31, 2018JQ4047, 3万元,结题: 主持.
[6] 延安大学, 延安大学科研计划项目. 混合城市绿化废弃物修复原油污染土壤效应研究[J]. 2020-07-01~2022-07-31, YDY2020-34, 2万元,结题: 主持.
[7] 延安大学, 博士科研启动项目. 博士科研启动项目[J]. 2018-01-01~2020-11-31, YDBK2017-26, 30万元,结题: 主持.
发表学术论文(第一或通讯作者):
[1] ZHANG X, HU J, WANG L, et al. Alterations in litter chemical traits and soil environmental properties limit the litter decomposition of near-mature Robinia pseudoacacia plantations[J]. Geoderma, 2023, 439: 116668.(中科院1区Top)
[2] ZHANG X, WANG L, ZHOU W, et al. Changes in litter traits induced by vegetation restoration accelerate litter decomposition in Robinia pseudoacacia plantations[J]. Land Degradation & Development, 2022, 33: 179-192.(中科院1区Top)
[3] LI J, DONG Y, LIU K, et al. Nitrogen deposition enhances interactions between litter types during the early stage of decomposition[J]. Land Degradation & Development, 2025, 36: 1900-1914.(中科院2区)
[4] ZHANG X, HU J, TIAN S, et al. Combined addition of plant litter altered remediating effects on petroleum-contaminated soil in Northern Shaanxi, China[J]. Land Degradation & Development, 2023, 34: 3500-3512.(中科院2区)
[5] ZHANG X, LUO Y, LIANG Q, et al. Effects of litter layer alterations caused by increasing stand age on the seed germination and seedling establishment of Robinia pseudoacacia plantations[J]. Forest Ecology and Management, 2025, 594: 122960.(中科院2区Top)
[6] LI J, WANG Y, ZHOU W, et al. Effects of plant residue amendments on the bacterial traits of petroleum-contaminated soil: A co-occurrence networks analysis[J]. Soil Use and Management, 2024, 40(4): e70006.
[7] LI J, LIU K, DONG Y, et al. Potential effects of soil petroleum contamination on decomposition of Artemisia annua plant litter[J]. Environmental Science: Processes & Impacts, 2024, 26: 1022-1030.
[8] LI J, FANG L, LI L, et al. Allelopathic effects of soil extracts from Rhus typhina plantations on common turfgrass species in northern China[J]. Agronomy, 2024, 14: 2561.(中科院2区)
[9] LIU S, WANG Y, JING T, et al. Effects of mixing addition of the greenery wastes on their remediating effects on petroleum polluted soil[J]. Carpathian Journal of Earth and Environmental Sciences, 2023, 18(2): 429-440.
[10] ZHOU W, ZHANG S, WANG L, et al. Applicability of the microbial inoculation method in the study on litter decomposition[J]. Taiwania, 2021, 66(3): 364-373.
[11] ZHANG X, WANG L, ZHOU W, et al. Mixing of plant litters strengthens their remediation effects on crude oil-contaminated soil[J]. Environmental Science and Pollution Research, 2021, 28: 12753-12765.
[12] ZHANG X, ZHOU W, LIU H, et al. Dynamics of the remediating effects of plant litter on the biological and chemical properties of petroleum-contaminated soil[J]. Environmental Science and Pollution Research, 2019, 26(13): 12765-12775.
[13] ZHANG X, WANG B, LIU Z. Mutual effects between Pinus armandii and broadleaf litter during mixed decomposition[J]. Acta Societatis Botanicorum Poloniae, 2019, 88(3): e3629.
[14] ZHANG X, WANG B, LIU Z. Impacts of plant secondary metabolites from conifer litter on the decomposition of Populus purdomii litter[J]. Journal of Forestry Research, 2019, 30(6): 2237-2245.
[15] ZHANG X, LIU Z. Responses of litter decomposition and nutrient release of Bothriochloa ischaemum to soil petroleum contamination and nitrogen fertilization[J]. International Journal of Environmental Science and Technology, 2019, 16(2): 719-728.
[16] ZHANG X, LIU H, ZHOU W, et al. The effects of plant secondary metabolites from coniferous needle litter on the litter decomposition of Betula albo-sinensis Burk.[J]. Sains Malaysiana, 2019, 48(3): 561-570.
[17] ZHANG X, LIU H, HAN G. Responses of chloroplastic antioxidant defence and the photosynthesis characteristics of Hedysarum scoparium and Atraphaxis bracteata to drought stress[J]. Fresenius Environmental Bulletin, 2019, 28(4): 2864-2875.
[18] ZHANG X, LEI H, CHONG Y, et al. Do silvi-medicinal plantations affect tree litter decomposition and nutrient mineralization?[J]. Sustainability, 2019, 11(18): e5138.
[19] ZHANG X, WANG B, LIU Z. Coniferous litter extracts inhibit the litter decomposition of Catalpa fargesii Bur. and Eucommia ulmoides Oliver[J]. Acta Oecologica, 2018, 93: 7-13.
[20] ZHANG X, LU Y, XU J, et al. Leachates of medicinal herbs inhibit the decomposition rate of Catalpa fargesii Bur. litter[J]. Ecoscience, 2018, 25(2): 179-188.
[21] ZHANG X, HU W, LIU Z. Soil petroleum contamination and urea fertilization inhibit nutrient release from white clover litter during decomposition[J]. Fresenius Environmental Bulletin, 2017, 26(11): 6945-6951.
[22] ZHANG X, YU Q, LIU Z, et al. Remediation of petroleum contaminated soil using litter from afforestation plant species in Northern Shaanxi, China[J]. Carpathian Journal of Earth and Environmental Sciences, 2016, 11(1): 197-206.
[23] ZHANG X, LIU Z, ZHU B, et al. Impacts of mixed litter decomposition from Robinia pseudoacacia and other tree species on C loss and nutrient release in the Loess Plateau of China[J]. Journal of Forestry Research, 2016, 27(3): 525-532.
[24] ZHANG X, LIU Z, LUC N T, et al. Impacts of soil petroleum contamination on nutrient release during litter decomposition of Hippophae rhamnoides[J]. Environmental Science: Processes & Impacts, 2016, 18(3): 398-405.
[25] ZHANG X, LIU Z, LIU X, et al. Relationship between soil humus dissimilation, soil biological and chemical properties, and leaf litter characteristics in pure forests[J]. Emirates Journal of Food and Agriculture, 2016, 28(9): 616-624.
[26] ZHANG X, LIU Z, HU W. Response of nutrient release of Periploca sepium litter to soil petroleum contamination[J]. CLEAN–Soil, Air, Water, 2016, 44(12): 1709-1716.
[27] ZHANG X, LIU Z, YU Q, et al. Effect of petroleum on decomposition of shrub-grass litters in soil in Northern Shaanxi of China[J]. Journal of Environmental Sciences, 2015, 33: 245-253.
[28] ZHANG X, LIU Z, TIAN N, et al. Allelopathic effects of decomposed leaf litter from intercropped trees on rape[J]. Turkish Journal of Agriculture and Forestry, 2015, 39(6): 898-908.
[29] ZHANG X, LIU Z, LUC N T, et al. Dynamics of the biological properties of soil and the nutrient release of Amorpha fruticosa L. litter in soil polluted by crude oil[J]. Environmental Science and Pollution Research, 2015, 22(21): 16749-16757.
[30] 周雯星, 胡漫, 王丽洁, 等. 3种草本凋落物混用强化修复石油污染土壤的效果[J]. 石油学报(石油加工), 2023, 39(1): 183-193.(EI)
[31] ZHANG X, ZHU B, LIU Z, et al. Allelopathic effects of humus soil of Platycladus orientalis forests on understory plants in the Loess Plateau, China[J]. Nature Environment and Pollution Technology, 2016, 15(1): 317-324.(EI)
[32] ZHANG X, LIU Z, TIAN N, et al. Allelopathic impacts of leaf litter decomposition from intercropped fruiters on soybean in agroforestry system[J]. International Agricultural Engineering Journal, 2015, 24(1): 10-18.(EI)
[33] ZHANG X, LIU Z, TIAN N, et al. Allellopathic impacts of leaf litters decomposition from intercrop tree species on soybean[J]. Advance Journal of Food Science & Technology, 2015, 7(12): 971-976.(EI)
[34] ZHANG X, LIU Z, BING Y, et al. Dissimilation of soil humus in forest with pure stands and its relationship with other bio-chemical properties in the semi-arid windy region of the Loess Plateau, China[J]. Forestry Studies, 2014, 60(1): 24-33.(EI)
[35] ZHANG X, LIU Z, BING Y, et al. Nutrient release during single and mixed leaf litter decomposition from Larix principis-rupprechtii and other tree species on the Loess Plateau, China[J]. Taiwan Journal of Forest Science, 2014, 29(2): 85-101.(EI)
[36] 李嘉豪, 陈灵素, 田爽, 等. 火炬树成体及根蘖幼苗对3种常见草坪草的化感效应[J]. 生态学报, 2025, 45(9): 4456-4469.
[37] 张晓曦, 田爽, 曾磊, 等. 北方常见绿化树种凋落物添加对城市土壤有机碳组成特征的影响[J]. 植物科学学报, 2024, 42(2): 140-149.
[38] 张晓曦, 胡嘉伟, 王星, 等. 火炬树根蘖幼苗对3种草坪草种子萌发和幼苗生长的化感效应[J]. 草业学报, 2024, 33(4): 47-59.
[39] 张晓曦, 胡嘉伟, 刘凯旋, 等. 黄土丘陵区刺槐人工林林龄增加土壤微环境变化对凋落物分解的影响[J]. 生态学报, 2024, 44(7): 2931-2945.
[40] 张晓曦, 胡嘉伟, 刘凯旋, 等. 4种园林绿化植物凋落物混合对其持水特性的影响[J]. 西北林学院学报, 2024, 39(4): 178-188.
[41] 刘冲, 王羿人, 周雯星, 等. 国槐与其他树种绿化废弃物混合施用对石油污染土壤修复效果的影响[J]. 浙江农业学报, 2024, 36(4): 859-869.
[42] 张晓曦, 刘凯旋, 田爽, 等. 落花与凋落叶混合比例对黄土丘陵区刺槐林地凋落物分解的影响[J]. 植物科学学报, 2023, 41(2): 183-192.
[43] 张晓曦, 刘凯旋, 车文绒, 等. 针阔叶凋落物混合分解对酚类物质释放的非加和性影响[J]. 生态学杂志, 2023, 42(12): 2885-2894.
[44] 张晓曦, 胡嘉伟, 胡漫, 等. 黄土丘陵区代表性乔灌草植物凋落物关键代谢产物释放的室内模拟研究[J]. 西北植物学报, 2023, 43(4): 688-697.
[45] 张晓曦, 周雯星, 王丽洁, 等. 模拟氮沉降对凋落物早期混合分解中相互作用的影响[J]. 生态学杂志, 2022, 41(9): 1708-1716.
[46] 张晓曦, 周雯星, 王丽洁, 等. 灌草凋落物混合添加对原油污染土壤修复效果的影响[J]. 生态学报, 2021, 41(19): 7700-7712.
[47] 张晓曦, 王丽洁, 纪永康. 模拟氮沉降对刺槐及沙棘凋落叶分解的影响[J]. 植物科学学报, 2021, 39(4): 398-406.
[48] 张晓曦, 胡嘉伟, 王丽洁, 等. 不同林龄刺槐林地凋落物分解及养分释放对氮沉降的响应差异[J]. 植物资源与环境学报, 2021, 30(6): 10-18.
[49] 张晓曦, 张玲玲, 雷航宇, 等. 草本凋落物与尿素联合修复对油污土壤生物化学性质的影响[J]. 生态学报, 2020, 40(8): 2715-2725.
[50] 王丽洁, 冯钰, 周雯星, 等. 不同绿化植物对城市土壤腐殖质特征的影响[J]. 森林与环境学报, 2020, 40(6): 569-578.
[51] 张晓曦, 周雯星, 李佳佳, 等. 早期分解中油松与阔叶树种凋落叶混合分解效应及其相互影响[J]. 植物科学学报, 2019, 37(3): 303-311.
[52] 张晓曦, 刘慧, 王博雅, 等. 云杉与阔叶树种新鲜凋落叶混合分解特征[J]. 生态环境学报, 2019, 28(2): 235-244.
[53] 张晓曦, 刘增文, 朱博超, 等. 半干旱黄土丘陵区纯林土壤腐殖质异化特征及与其他性质的关系[J]. 生态学报, 2015, 35(6): 1779-1787.
[54] 张晓曦, 刘增文, 邴塬皓, 等. 黄土丘陵区针叶纯林养分循环和枯落物分解导致土壤极化风险分析[J]. 西北农林科技大学学报: 自然科学版, 2014, 42(9): 48-54.
[55] 张晓曦, 刘增文, 邴塬皓, 等. 内蒙半干旱低山区不同纯林土壤腐殖质分异特征及其与其他生物化学性质的关系[J]. 应用生态学报, 2014, 25(10): 2819-2825.
[56] 张晓曦, 刘增文, 邴塬皓, 等. 樟子松与其他 10 种凋落叶混合分解的养分释放特征[J]. 林业科学, 2014, 50(7): 149-156.
[57] 张晓曦, 刘增文, 祝振华, 等. 侧柏与其他树种枯落叶混合分解对养分释放的影响[J]. 土壤学报, 2013, 50(1): 178-185.
获 奖:
[1] 张永旺, 闫伟明, 张晓曦, 等. 黄土高原植被恢复过程中的土壤环境变化理论研究[J]. 陕西高等学校科学技术研究优秀成果奖二等奖, 2023.
[2] 王秀康, 范军亮, 成玉婷, …张晓曦, 等. 黄土塬区农田土壤系统修复与作物提质增效关键技术[J]. 陕西高等学校科学技术奖一等奖, 2021.
