王鑫鑫,男,1984年出生,荷兰瓦赫宁根大学博士,中国农业大学硕士,副教授,硕士生导师。长期从事作物养分的高效利用、农业生态等研究。
◆论文论著
1. Wei Lu, Wanqing Li, Keke Zhao, Xiaofeng Bai, Yuchang Zhang, Qingyun Li, Zhanjun Xue*, and Xin-Xin Wang* (2025) Blue light irradiation combined with low-temperature storage further enhances postharvest quality of strawberries through improving antioxidant defense and cell wall metabolic activities. Food Chemistry: X, 25: 102115(一区top)
2. Xiaofeng Bai, Wei Lu, Jin Xu, Qing Yun Li, Zhanjun Xue* and Xin-Xin Wang* (2025) Effects of cattle manure and sludge vermicompost on nutrient dynamics and yield in strawberry cultivation with distinct continuous cropping histories in a greenhouse, Frontiers in Plant Science 15:1514675 (二区top)
3. Ruifang Zhang#, Saisai Hou#, Chi Zhang, Hong Wang and Xin-Xin Wang* (2025) Mechanistic insights into phosphorus efficiency and shoot P concentration in Chinese cabbage, Agronomy, 15, 130. (二区)
4. Ru Li#, Yaxin Gao#, Bingbing Cai, Gongfeng Li, Zhanjun Xue, Xin-Xin Wang* and Qingyun Li* (2024) RPO film effectively promotes fruit quality and yield of cucumber through adjusting greenhouse environment and hormone contents, BMC Plant Biology, 24: 1250(二区top)
5. Zhang YX, Zhang JH*, Zhang JZ, Li HB, Li CJ, Wang XX* (2024) Effects of the application of organic fertilizers on the yield, quality, and soil properties of open-field Chinese cabbage (Brassica rapa spp. pekinensis) in China: a meta-analysis, Agronomy, 14, 2555. (二区)
6. Cui LM, Liang R, Zhang C, Zhang RF, Wang H, Wang XX*. (2024). Coupling polyethylene microplastics with other pollutants: Exploring their combined effects on plant health and technologies for mitigating toxicity, Science of the Total Environment 955, 76657(一区top)
7. Zhang YX, Yang DY, Zhang JH, Wang XX* and Wang GY (2024) Application of biogas residues in circular agricultural ecological parks: food security and soil health, Agronomy, 4, 2332 (二区)
8. Liang R, Zhang C, Zhang RF, Li QY, Liu HQ, Wang XX* (2024) Effects of microplastics derived from biodegradable mulch film on different plant species growth and soil properties, Science of the Total Environment 948: 174899(一区top)
9. Liang R, Zhu ZJ*, Peng C, Bian ZJ, Yang XM, Wang H, Wang XX* (2024) Mulch fflm to plastic debris: A survey of agricultural soils of Hebei Province, North China, Science of the Total Environment, 918: 170509 (一区top)
10. Liang R, Sun FH, Yang XM, Liu HQ*, Wang XX*. (2024). The efects of diverse microplastics on adzuki bean (Vigna angularis) growth and physiologic properties, Environmental Geochemistry and Health, 46:374
11. Pu ZT, Zhang Chi, Zhang RF*, Wang H., Wang XX*. (2024). Analysis of the influence of phytate-P on shoot and root traits in mycorrhizal-enhanced wheat varieties, Pland and Soil, (二区top)
12. Li N, Wang XX*, Xue ZJ, Li QY* (2024) Water and potassium utilization efffciency and yield and quality of cucumber (Cucumis sativus L.), Scientia Horticulturae, 330, 113025(二区top)
13. Hou SS, Pu ZT, Zhang RF, Zhang, C, Wang, H, Wang, XX* and Zhao JJ. (2024). Shoot and root traits are associated with varying soil phosphorus supply in chinese cabbage, Journal of Soil Science and Plant Nutrition, 24: 4280–4293
14. Zu C, Li ZG, Wang C, Wang XX, Ji H, Shen Jb, Rengel Z, Li HB, Yang JF*, (2024) Dissimilarity in root traits and spatial distribution promotes the productivity of Piper nigrum L. and tree species in mixture systems, European Journal of Agromy, 154:127094(一区top)
15. Cui XW, Sun L*, Fan XF, Wang XX, Liu JY, Zhang J, Zhang DF, Yu WY, Suo XS, Zhao JJ. (2024) A method to quantify the degree of leaf curl in nodular Chinese cabbage (Brassica pekinensis), Scientia Horticulturae, 330, 113054 (二区top)
16. Zhenyan Xie, Die Zhao, Bingxue Li, Nan Zeng, Dandan Wang, Xin-Xin Wang, Yunhao Sun, Mingwei Shao, Shuang Miao, Fei Feng, Ping Cheng, Guohui Yu, Chunji Li* (2024). Integrated lipidomic and transcriptomic analyses provide insights into the positive effect of hydrogen peroxide treatment on lipid synthesis in oleaginous red yeast Sporobolomyces pararoseus, LWT - Food Science and Technology, 203: 116389 (一区top)
17. Pu ZT., Zhang RF., Wang H., Li, QY., Zhang, JH. & Wang, XX*. (2023) Root morphological and physiological traits and arbuscular mycorrhizal fungi shape phosphorus-acquisition strategies of 12 vegetable species. Frontiers in Plant Science, 14, 1082. (二区top)
18. Hou, SS, Zhang, RF, Zhang, C, Wang, L, Wang, H, & Wang, XX*. (2023). Role of vermicompost and biochar in soil quality improvement by promoting Bupleurum falcatum L. nutrient absorption. Soil Use and Management, 39(4), 1600-1617.
19. Wang XX, Zhang JQ, Wang H, Rengel Z, Li HB* (2023) Plasticity and co-variation of root traits govern differential phosphorus acquisition among 20 wheat genotypes. Oikos e08606: 1-13(二区)
20. Wang XX, Zhang M, Sheng JD, Feng G* and Kuyper TW (2023) Breeding against mycorrhizal symbiosis: modern cotton (Gossypium hirsutum L.) varieties perform more poorly than older varieties except at very high phosphorus supply. Journal of Integrative Agriculture 22(3): 701–715 (一区top)
21 Zhang AP#, Wang XX#, Zhang DS, Dong ZJ, Ji H, Li HB* (2023) Localized nutrient supply promotes maize growth and nutrient acquisition by shaping root morphology and physiology and mycorrhizal symbiosis. Soil & Tillage Research 5: 105550 (一区top;共同一作)
22. Zhang J#, Wang XX#, Liu JY#, Zhang DF, Yin Lu, Zhou YH, Fan XF*, Shen SX*, Zhao JJ* (2022) Multispectral drone imagery and SRGAN for rapid phenotypic mapping of individual Chinese cabbage plants. Plant Phenomics (一区top;共同一作)
23. Wang XX, Li JQ, Wang DL, An TT, Qin W, Zou HT*, Rengel Z (2022) Straw incorporation effects on net photosynthetic carbon assimilation and maize growth. Frontiers in Agronomy 4: 805320 (未收录SCI)
24. Wang GW, Jin ZX, Wang XX*, George TS, Feng G, Zhang L* (2022) Simulated root exudates stimulate the abundance of Saccharimonadales to improve the alkaline phosphatase activity in maize rhizosphere. Applied Soil Ecology 17: 04274 (二区)
25. Wang XX, Hoffland E, Feng G*, Kuyper TW (2020a) Arbuscular mycorrhizal symbiosis increases phosphorus uptake and productivity of mixtures of maize varieties compared to monocultures. Journal of Applied Ecology 57: 2203-2211. (一区top)
26. Wang XX#, Li HB#, Chu Q, Feng G*, Kuyper TW, Rengel Z (2020b) Mycorrhizal impacts on root trait plasticity of six maize varieties along a phosphorus supply gradient. Plant and Soil 448: 71-86. (一区top)
27. Wang XX, van der Werf W, Yu Y, Hoffland E, Feng G*, Kuyper TW (2020c) Field performance of different maize varieties in growth cores at natural and reduced mycorrhizal colonization: Yield gains and possible fertilizer savings in relation to phosphorus application. Plant and Soil 450: 613-624. (一区top)
28. Li HB#, Zhang DS#, Wang XX#, Li HG, Rengel Z, Shen JB* (2019) Competition between Zea mays genotypes with different root morphological and physiological traits is dependent on phosphorus forms and supply patterns. Plant and Soil 434: 125-137. (一区top;共同一作)
29. Wang XX, Hoffland E, Mommer L, Feng G*, Kuyper TW (2019) Maize varieties can strengthen positive plant-soil feedback through beneficial arbuscular mycorrhizal fungal mutualists. Mycorrhiza 29: 251-261. (二区)
30 Wang XX#, Liu SL#, Zhang SM#, Li HB, Maimaitiaili B, Feng G*, Rengel Z (2018a) Localized ammonium and phosphorus fertilization can improve cotton lint yield by decreasing rhizosphere soil pH and salinity. Field Crops Research 217: 75-81. (一区top)
31. Wang XX#, Wang XJ#, Sun Y#, Cheng Y, Liu ST, Chen XP, Feng G*, Kuyper TW (2018b) Arbuscular mycorrhizal fungi negatively affect nitrogen acquisition and grain yield of maize in a N deficient soil. Frontiers in Microbiology 9. Article number: 418 (二区top)
32. Wang XX, Hoffland E, Feng G*, Kuyper TW (2017a) Phosphate uptake from phytate due to hyphae-mediated phytase activity by arbuscular mycorrhizal maize. Frontiers in Plant Science 8: Article number: 684. (二区top)
33. Wang XX#, Zhao FY#, Zhang GX, Zhang YY, Yang LJ* (2017b) Vermicompost improves tomato yield and quality and the biochemical properties of soils with different tomato planting history in a greenhouse study. Frontiers in Plant Science 8, artical 1978.(二区top)
34. Wang XJ#, Wang XX#, Feng G* (2015) Optimised nitrogen fertiliser management achieved higher diversity of arbuscular mycorrhiza fungi and high-yielding maize (Zea mays L.). Crop and Pasture Science 66: 706-714. (三区;共同一作)
35. Kuyper TW, Wang XX, Muchane MN (2021) The interplay between roots and arbuscular mycorrhizal fungi influencing water and nutrient acquisition and use efficiency. In: Rengel Z, Djalovic I (eds) The Root Systems in Sustainable Agricultural Intensification. John Wiley & Sons Inc, New Jersey, USA. (书籍专著中的一章)
36. Ruofan Li, Xiaohua Sun, Kun Yang, Zhenxue He, Xin-Xin Wang, Chao Wang, Bin Wang, Fushun Wang and Hongquan Liu (2025) A lightweight wheat ear counting model in UAV images based on improved YOLOv8 Frontiers in Plant Science, 16:1536017. (二区top)
37. Zhiyuan Li#, Yaqi Zhao#, Chao Zu, Zhigang Li, Weiquan Zheng, Huan Yu ,Shengfeng Gao, Shichao Liu, Baogui Zhang, Xin-Xin Wang, Can Wang* and Jianfeng Yang*(2025) Root exudates from Areca catechu L. intercropping system promote Nutrient uptake and sustainable production of Piper nigrum L. Agronomy, 15, 355. (二区)
38. Kun Yang#, Xiaohua Sun#, Ruofan Li, Zhenxue He, Xin-Xin Wang, Chao Wang, Bin Wang, Fushun Wang* and Hongquan Liu* (2025) A method for quantifying mung bean field planting layouts using UAV images and an improved YOLOv8-obb model, Agronomy, 15, 151. (二区)
39 Chu Q, Wang XX, Yang Y, Chen FJ, Zhang FS, Feng G* (2013) Mycorrhizal responsiveness of maize (Zea mays L.) genotypes as related to releasing date and available P content in soil. Mycorrhiza 23: 497-505.
40 Fan, Y., Wang, XX., Chen, RQ., Dang, HK. & Liu, HQ. (2023) Differences in water consumption and yield characteristics among winter wheat (Triticum aestivum L.) varieties under different irrigation systems. Applied Sciences, 13, 4396.
41. Liu, HQ., Zhang, WJ., Wang, FS*., Sun, X., Wang, JH., Wang, C. & Wang, XX. (2023) Application of an improved watershed algorithm based on distance map reconstruction in bean image segmentation. Heliyon, e15097.
42. 梁榕,何娇,孙飞虎,张瑞芳&王鑫鑫*.(2024).聚乙烯微塑料对土壤养分和酶活性的影响.环境科学(06),3679-3687. (中文EI)
43. 侯赛赛,仝姗姗,王鹏企,谢冰雪,张瑞芳&王鑫鑫*生物炭和秸秆对不同作物生长性状和养分吸收的影响.中国农业科技导报1-13.doi:10.13304/j.nykjdb.2023.0765.
44. 侯赛赛,李畅,李青云&王鑫鑫*.不同供磷水平下大白菜的生长和磷吸收策略研究.作物杂志1-9.
45. 肖雅寅,蒲子天,张瑞芳,王灿,侯振军&王鑫鑫*.(2024).不同有机物料对盐碱地改良效果的研究进展.中国土壤与肥料(03),229-239.
46. 张益兴,侯赛赛,谢冰雪,王鹏企,张建恒*&王鑫鑫* (2024).不同生态型大白菜品种对供磷水平的响应.中国土壤与肥料(11),196-204.
47. 蒲子天,王菲,李畅&王鑫鑫*.(2024).丛枝菌根真菌影响植物氮素吸收和转运的研究进展.中国农业科技导报(11),171-179.
48. 白懿杭,侯赛赛,赵玉璞,张瑞芳,张爱军,李旭光&王鑫鑫*.(2024).农田土壤有机碳积累和团聚体稳定过程及其相互作用关系.中国土壤与肥料(07),208-220.
49. 蒲子天,王红,赵斌&王鑫鑫*.(2024).不同土壤改良物料对连作黄芩生长及土壤酶活性的影响.中国农业科技导报(07),189-198.
50. 张建恒,张益兴,侯赛赛,李洪波,张瑞芳,王红,王鑫鑫*.(2023).覆盖作物的效益及其合理选择的研究进展.农业工程学报(14),23-34. (中文EI)
51. 侯赛赛,王蕾,许华森,王红,王鑫鑫*.品种混作的生态学机制和筛选指导原则[J].中国生态农业学报(中英文),2023,31(01):1-10. (一级学报)
52. 梁榕,孙飞虎,张弛,张瑞芳,王红,王鑫鑫*.微塑料与土壤环境中微生物互作研究进展[J].生物工程学报,2023,39(02):500-515(一级学报)
53. 张佳崎,蒲子天,张瑞芳,刘宏权,张弛,王红,王鑫鑫* 田间低磷胁迫下丛枝菌根真菌对苗期小麦生长的影响[J]. 中国农业大学学报, 2022, 27(11):36-46(一级学报)
54. 蒲子天,张弛,张佳崎,张瑞芳,王红,王鑫鑫*. 供磷水平对苗期小麦地上-地下部性状关联性的影响[J]. 植物营养与肥料学报, 2022, 28(09):1594-1602. (一级学报)
55. 张春楠,张瑞芳,王红,周大迈,王鑫鑫*.丛枝菌根真菌影响作物非生物胁迫耐受性的研究进展. 微生物学通报. 2020, 47(11):3880-3891 (中文核心)
56. 刘一凡,杨丽娟,王红,王鑫鑫*. 蚯蚓粪肥在农业生产中的应用效果及研究进展[J].土壤通报, 2021, 52(02): 474-484. (中文核心)
57. 刘一凡,王红,张瑞芳,张弛,王鑫鑫*.不同氮肥施用量对白菜产量及品质的影响[J]. 北方园艺, 2021, (10):35-40 (中文核心)(中文核心)
58. 孙飞虎,张弛,李洪波,张瑞芳,王红,王鑫鑫*. 微塑料污染现状及其对土壤生态系统的影响[J]. 中国肥料与土壤,2022, (08):239-246. (中文核心)
59. 王蕾,张春楠,李洪波,王红,王鑫鑫*. 丛枝菌根真菌在蔬菜生产中的研究进展[J].微生物通报, 2021, 48(11): 4282−4295(中文核心)
60. 刘一凡,张瑞芳,张弛,赵斌,王红,王鑫鑫*. 河北典型县域设施菜地土壤质量调查及其差异分析[J]. 北方园艺,2022, (21):89-99. (中文核心)
61. 蒲子天,张林,张弛,王红,王鑫鑫*. 丛枝菌根真菌与植物共生影响植物水分状态的研究进展[J]. 土壤,2022,54(05):882-889. (中文核心)
62. 侯赛赛,蒲子天,张弛,张瑞芳,王红,王鑫鑫*.(2023).丛枝菌根真菌缓解土壤过量微量元素和重金属对植物毒害的研究进展.土壤通报(03),739-749.(中文核心)
63 李一,刘宏权*,陈任强,柴春岭,王鑫鑫*.再生水灌溉对作物和土壤的影响[J].灌溉排水学报,2022,41(S1):26-33+43. (中文核心)
64. 曹巍,刘宏权,陈任强,王鑫鑫*,薛宝松,商振清.(2023).膜下滴灌对玉米生长及土壤影响的研究进展.节水灌溉(04),39-51. (中文核心)
65. 侯赛赛,薛占军,张益兴,李青云,王鑫鑫*.(2023).不同供磷水平下大白菜的光合作用及叶绿素荧光参数变化. 北方园艺(19),8-15.
66. 侯赛赛,白懿杭,王灿,祖超,张瑞芳&王鑫鑫*. (2023).土壤有机碳及其活性组分研究进展. 江苏农业科学(13),24-33. (中文核心)
67. 蒲子天,王红,赵斌&王鑫鑫*.(2024).不同土壤改良物料对连作黄芩生长及土壤酶活性的影响.中国农业科技导报(07),189-198. (中文核心)
68. 梁榕,孙飞虎,张弛,刘宏权,王红,王鑫鑫*.基于CNKI的红小豆中文文献计量学分析[J].农学学报,2023,13(02):77-82.
69. 孙飞虎,梁榕,李青云,薛占军,王鑫鑫*.(2023).基于CNKI的草莓中文文献计量学研究.农学学报(05),82-88.
70. 陈征,王鑫鑫*,刘宏权*,韩会玲,陈任强,高惠嫣. 玉米宽窄行种植栽培技术研究进展[J].中南农业科技,2022,43(04):140-145.
71. 何雅祺,王鑫鑫,张弛,张瑞芳,林智慧,王红*. 间作、套种模式在中药材栽培中的效应研究进展[J]. 江苏农业学报, 2021, 37(04):1077-1083(中文核心)
72. 李晶晶,刘聪,王鑫鑫,张瑞芳,王红*.微生物菌剂对青椒生长、品质和土壤养分状况的影响[J].北方园艺, 2021, (13):1-10(中文核心)
73. 张春楠,张瑞芳,王鑫鑫,张弛,李建军,王红*. 硝化抑制剂和微生物菌剂对甜瓜产量及氮素利用的影响[J].水土保持学报, 2020, 34(06):281-287+293. (中文核心)
74. 张春楠,张瑞芳,王鑫鑫,王红,周大迈*. 保水剂对小白菜生长的影响及节水保肥效果[J]. 北方园艺, 2020, (05):1-7(中文核心)
75. 袁帅,王鑫鑫,侯升林,申书兴,范晓飞*.(2023).光谱成像技术在大田蔬菜种植中的应用研究进展.江苏农业科学(24),1-11. (中文核心)
76. 曹巍,高惠嫣,王鑫鑫,陈任强,柴春岭,刘震,赵秀梅,刘宏权.(2023).不同配施肥措施对滨海盐碱地大豆生长和产量的影响.江苏农业科学(22),53-60. (中文核心)
77. 刘微,李宇欣,荣飒爽,汪晚晴,王鑫鑫,郭嘉朋...&王树涛*(2023).土壤中微塑料对陆生植物的毒性及其降解机制研究进展.环境科学(11),6267-6278. (中文EI)
78 张伟进,王福顺,孙小华,王军皓,刘宏权 & 王鑫鑫.(2024).传统图像分割算法在农作物籽粒考种应用中的研究进展.中国农机化学报(02),280-287. (中文核心)
79. 树涛,汪晚晴,荣飒爽,李宇欣,王鑫鑫,梁盼 & 刘微.(2024).聚乙烯微塑料对土壤氮转化的影响及机制研究进展.环境科学(08),4756-4765. (中文EI)
80. 王佳惠,李旭光,张弛,王鑫鑫,王红&张瑞芳*(2024).锰元素影响小麦生长发育、产量和品质的研究进展.麦类作物学报(08),1074-1082. (中文核心)
81. 张友为,王鑫鑫 & 范晓飞.(2024).基于深度学习的玉米和番茄病虫害检测技术研究进展.江苏农业科学(10),10-20. (中文核心)
82. 王莉,李旭光,王鑫鑫&张瑞芳.(2024).锌影响小麦产量及品质的研究进展.土壤与作物(04),501-511.
83. 侯赛赛,李旭光,杨庆鹏,蒲子天,王鑫鑫&张瑞芳*(2024).叶面喷施不同配比微肥对小麦生长和产量的影响.中国土壤与肥料(02),173-184. (中文核心)
84. 高梦钒,王鑫鑫,陈任强,高惠嫣,柴春岭 &刘宏权*.(2024).禾本-豆科间作水分高效利用研究进展.节水灌溉(06),77-86. (中文核心)
85. 赵雅琦,王昌跃,杨建峰,王鑫鑫,张宝贵,李志刚&王灿*.期淹水胁迫和解除胁迫对诺丽生理及产量的影响.热带作物学报1-15. (中文核心)
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