Academic Publications(科研成果) [1] ZHANG JianGuo, XU XinWen*, LEI JiaQiang, et al. 2008. The salt accumulation at the shifting aeolian sandy soil surface with high salinity groundwater drip irrigation in the hinterland of the Taklimakan Desert. Chinese Sciences Bulletin, 53(S02): 63-70. [2] Jianguo Zhang, Xinwen Xu, Jiaqiang Lei, S.Y. Li, R.L. Hill, Y. Zhao*. 2013. The effects of high salinity irrigation and shelterbelt age on the formation of soil salt crusts and soil evaporation in the Taklimakan Desert Highway Shelterbelt of Northwest China. Journal of Soil Science and Plant Nutrition, 13 (4): 1019-1028. [3] Jianguo Zhang, Xinwen Xu, Jiaqiang Lei, et al. 2013. Research on chemical characteristics of soil salt crusts with saline groundwater drip-irrigation in the Tarim Desert Highway Shelterbelt. SpringerPlus, 2(Suppl 1): S5. [4] Jianguo Zhang, Yongdong Wang, Ying Zhao*, Xinwen Xu*, et al. 2016. Temporal–Spatial Distribution of Soil Salt Crust under Saline Drip Irrigation in an Artificial Desert Highway Shelterbelt. Water, 8, 35. [5] Zhang, J.G., Xu, X.W.*, Zhao, Y.*, et al.2016. Effect of shifting sand burial on soil evaporation and moisture–salt distribution in a hyper-arid desert. Environmental Earth Sciences, 75: 1417. [6] J.G. Zhang, J.Q. Lei, Y.D. Wang, Y. Zhao*, et al. 2016. Survival and growth of three afforestation species under high saline drip irrigation in the Taklimakan Desert, China, Ecosphere, 7(5): e01285. [7] Jianguo Zhang, Xinwen Xu, Shengyu Li*, Ying Zhao*, et al. 2016. Is the Taklimakan Desert Highway Shelterbelt Sustainable to Long-Term Drip Irrigation with High Saline Groundwater? PLoS ONE, 11 (10): e0164106. [8] Yahong Wei, Baodan Wang, Limei Zhang, Jianguo Zhang*, Shaolin Chen*. 2018. Pedobacter yulinensis sp. nov., isolated from sandy soil, and emended description of the genus Pedobacter. International Journal of Systematic and Evolutionary Microbiology, 68: 2523-2529. [9] Tanveer Ali Sial, Jiao Liu, Ying Zhao*, Muhammad Numan Khan, Zhilong Lan, Jianguo Zhang*, et al. 2019. Co-Application of Milk Tea Waste and NPK Fertilizers to Improve Sandy Soil Biochemical Properties and Wheat Growth. Molecules, 24: 423. [10] Tanveer Ali Sial, Zhilong Lan, LimeiWang, Ying Zhao*, Jianguo Zhang*, et al. 2019. Effects of Different Biochars on Wheat Growth Parameters, Yield and Soil Fertility Status in a Silty Clay Loam Soil. Molecules, 24: 1798 [11] Xiong Li, Na Liu, Jianguo Zhang*. 2019. Adsorption of Cesium at the External Surface of TOT Type Clay Mineral: Effect of the Interlayer Cation and the Hydrated State. The Journal of Physical Chemistry: C, 123: 19540−19548. [12] Limei Wang, Aisheng Ma, Hong Zhang, Jianguo Zhang*, et al. 2020. Effects of Long-Term Vegetation Restoration on Distribution of Deep Soil Moisture in Semi-arid Northwest of China. Journal of Soil Science and Plant Nutrition, 20:2123–2132. [13] Xiong Li, Yue Sun, Na Liu, Zhengdong Chuai, Luobin Tang, Jianguo Zhang⁎. 2020. Invasion of Pb2+ into montmorillonite-illite clay and the response of interlayer K+ and water. Applied Clay Science, 194: 105693. [14] Xiong Li, Na Liu, Luobin Tang, Jianguo Zhang⁎. 2020. Specific elevated adsorption and stability of cations in the interlayer compared with at the external surface of clay minerals. Applied Clay Science, 198: 105814. [15] Zhilong Lan, Ying Zhao*, Jianguo Zhang*, et al. 2020. Effects of the long-term fertilization on pore and physicochemical characteristics of loess soil in Northwest China. Agronomy Journal, 112: 4741–4751. [16] Zhilong Lan, Shaolei Zhang, Liangchen Xie, Xiong Li, Tanveer Ali Sial1, Abdu Ghaffar Shar, Jinglong Fan, Jianguo Zhang*, et al. 2021. Effects of Artemisia ordosica on fine‑scale spatial distribution of soil C, N and P and physical–chemical properties in the Mu Us Desert, China. Journal of Soils and Sediments, 22 (1): 172-184. [17] Punhoon Khan Korai, Tanveer Ali Sial, Genxing Pan*, Hamada Abdelrahman, Ashim Sikdar, Farhana Kumbhar, Siraj Ahmed Channa, Esmat F. Ali, Jianguo Zhang*, Jörg Rinklebe*, Sabry M. Shaheen*. Wheat and maize-derived water-washed and unwashed biochar improved the nutrients phytoavailability and the grain and straw yield of rice and wheat: A field trial for sustainable management of paddy soils. Journal of Environmental Management, 297: 113250. [18] Lihua Bai, Hong Zhang, Jianguo Zhang*, et al. 2021. Long-term vegetation restoration increases carbon sequestration of different soil particles in a semi-arid desert. Ecosphere, 12(11): e03848. [19] Zhilong Lan, Ying Zhao*, Jianguo Zhang*, et al. 2021. Long‑term vegetation restoration increases deep soil carbon storage in the Northern Loess Plateau. Scientific Reports, 11:13758. [20] Xiong Li, Yuhang Xing, Luobin Tang, Na Liu, Qing Chang, Jianguo Zhang*. 2022. Adsorption of cations at the illite–water interface and its effect on intrinsic potassium ions. European Journal of Soil Science, 73: e13155. [21] Xiong Li, Luobin Tang, Na Liu, Qing Chang, Jianguo Zhang*. 2021. Coupling of Adsorption Site and Cation Ratio Regulates the Adsorption of Cs+ and Na+ at the Surface of Clay Mineral. Applied Clay Science, 209: 106121. [22] Tanveer Ali Sial, Sabry M. Shaheen, Zhilong Lan, Punhoon Khan Korai, Muhammad Imran Ghani a, Muhammad Numan Khan, Ain-ul-Abad Syed, Main Noor Hussain Asghar Ali, Inayatullah Rajpar, Mehrunisa Memon, Saleem Maseeh Bhatti, Hamada Abdelrahman, Esmat F. Ali, Jörg Rinklebe, Jianguo Zhang*. 2022. Addition of walnut shells biochar to alkaline arable soil caused contradictory effects on CO2 and N2O emissions, nutrients availability, and enzymes activity. Chemosphere, 293: 133476. [23] Zhilong Lan, Shaolei Zhang, Tanveer Ali Sial, Luyao Wu, Wenqian Chang, Xiong Li, Jianguo Zhang*, Jinglong Fan. 2022. Fine-scale spatial distribution of soil organic carbon and its fractions after afforestation with Pinus sylvestris and Salix psammophila in a semiarid desert of China. Journal of Plant Ecology, 15: 141–154. [24] Jiao Liu, Ying Zhao*, Ali Sial Tanveer, Haidong Liu, Yongdong Wang, Jianguo Zhang*. 2022. Photosynthetic Responses of Two Woody Halophyte Species to Saline Groundwater Irrigation in the Taklimakan Desert. Water, 14: 1385. [25] Luobin Tang, Xiong Li, Haotian Feng, Chuanyu Ma, Qing Chang, Jianguo Zhang*. 2022. Infiltration of salt solutions through illite particles: Effect of nanochannel size and cation type. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 641: 128581. [26] 张建国, 徐新文*, 雷加强, 等. 2008. 咸水滴灌对沙漠公路防护林土壤环境的影响. 农业工程学报, 22(10) : 34-239. [27] 张建国, 徐新文*, 雷加强, 等. 2010. 极端干旱区咸水滴灌林地盐结皮对土壤蒸发的影响. 农业工程学报, 26(9) : 34-39. [28] 张建国, 李红伟, 李雅菲, 等. 2019. 土壤盐结皮人工培育及其破损程度对土壤蒸发的影响[J]. 农业工程学报, 35(13): 138-144. [29] 孟天歌, 吴路遥, 张少磊, 徐燕莹, 李雄, 张建国*. 2020. 极端干旱区咸水灌溉人工防护林土壤可溶性碳的垂直分布及其影响因素. 环境科学, 41(4): 1950-1959. [30] 张建国, 徐新文*, 雷加强, 等. 2008. 极端干旱区咸水滴灌条件下流动风沙土盐分表聚过程研究. 科学通报, 53(S02): 52-61. [31] 张建国, 徐新文*, 雷加强, 等. 2009. 塔克拉玛干沙漠腹地引种植物适应性评价指标体系的构建与应用. 自然资源学报, 24(5): 849-858. [32] 张建国, 李应罡, 徐新文*, 等. 2012. 平茬对对塔里木沙漠公路沙拐枣防护林生长与土壤水盐分布的影响. 应用生态学报, 23(6): 1462-1468. [33] 张建国, 李应罡, 徐新文*, 等. 2012. 间伐对塔里木沙漠公路防护林乔木状沙拐枣生长与土壤水盐分布的影响. 应用生态学报, 23(9): 2377-2382. [34] 张建国, 赵英, 徐新文*, 等. 2014. 极端干旱区咸水灌溉下流沙压埋的减蒸抑盐效应, 应用生态学报, 25(5): 1415-1421. [35] 张建国, 徐新文, 雷加强, 等. 2015. 水质对咸水滴灌土壤盐分淋洗过程的影响. 水土保持学报, 29(1): 52-55, 61. [36] 张建国, 徐新文, 雷加强, 等. 2013. 咸水滴灌淋洗土壤盐分的试验研究. 灌溉排水学报, 32(5), 55-58. [37] 张建国, 徐新文, 雷加强, 等. 2009. 塔里木沙漠公路风沙危害与防护体系研究进展. 西北林学院学报, 24(2) : 50-54. [38] 张建国, 徐新文*, 雷加强, 等. 2008. 塔克拉玛干沙漠腹地植物引种与适应性评价. 林业科技, 33(4) : 10-13. [39] 张建国, 徐新文*, 雷加强, 等. 2009. 不同因素影响下突发性强降雨对沙拐枣的危害—以塔里木沙漠公路防护林生态工程为例. 干旱区地理, 32(3) : 346-352. [40] 张建国, 徐新文*, 雷加强, 等. 2009. 沙漠地区咸水滴灌林地盐结皮层化学特征. 干旱区研究, 26(2) : 255-260. [41] 张建国, 徐新文*, 雷加强, 等. 2009. 咸水滴灌下沙漠公路防护林土壤理化性质的变化. 中国生态农业学报, 17(4) : 667-672. [42] 张建国, 徐新文*, 雷加强, 等. 2010. 塔里木沙漠公路防护林土壤盐结皮化学特征及其对土壤蒸发影响. 干旱区资源与环境, 24(4) : 174-179. [43] 张建国, 孙树国, 徐新文, 等. 2011. 塔克拉玛干沙漠公路防护林棵间土壤蒸发及蒸发量估算. 水土保持通报, 31(1): 145-148. [44] 张建国, 马爱生, 徐新文, 等. 2013. 土壤盐结皮研究进展与展望, 陕西农业科学, 59(4), 146-149. [45] 张建国, 张阿凤, 王永东, 等. 2017. 光果甘草种子萌发的最适温度和最佳盐分条件研究. 西北农林科技大学学报(自然科学版), 45(2): 182-188. [46] 霍海霞, 张建国*. 2015. 咸水灌溉下土壤盐分运移研究进展与展望. 节水灌溉, (4): 41-45. [47] 霍海霞, 张建国*, 马爱生, 等. 干旱荒漠区土壤碳循环研究进展与展望. 西北林学院学报, 2018, 33(1): 98-104. [48] 焦瑞, 赵英, 司炳成, 兰志龙, 张建国*. 黄土高原退耕还林措施对深层土壤含水率的影响. 干旱地区农业研究, 2017, 35(5): 129-135. [49] 陈静, 张建国*, 赵英, 等. 2018. 秸秆和生物炭添加对关中地区玉米-小麦轮作农田温室气体排放的影响. 水土保持研究, 25(5): 170-178. [50] 张谦, 张建国*, 王丽梅, 等. 2019. 塔克拉玛干沙漠公路防护林不同咸水滴灌下土壤有机碳与无机碳垂直分布特征. 西北林学院学报, 34(4): 1-7. [51] 王丽梅, 张谦, 白利华, 马爱生, 张红, 李利敏, 张建国*, 等. 2019. 人工樟子松林对毛乌素沙地土壤颗粒组成和固碳效果的长期影响. 水土保持通报, 39(4):89-96. [52] 王丽梅, 张谦, 白利华, 马爱生, 张红, 李利敏, 张建国*, 等. 2020. 毛乌素沙地3种人工植被类型对土壤颗粒组成和固碳的影响. 水土保持研究, 27(1): 88-94. [53] 张少磊, 张建国*, 常闻谦, 等. 凋落物添加条件下咸水灌溉对风沙土CO2排放及化学性质的影响. 应用生态学报, 31(11): 3639-3646. [54] 吴路遥,张建国*,常闻谦,等. 2021. 三种荒漠植物叶绿素荧光参数日变化特征. 草业学报, 30(9): 203−213. |
