第一或通讯作者已发表(*为通讯作者，#为共同一作)：

Zhang A, Wang X-X, ZhangD, Dong Z, Ji H, Li H* (2023) Localized nutrient supply promotes maizegrowth and nutrient acquisition by shaping root morphology and physiology andmycorrhizal symbiosis. Soil Tillage Research, 225, 105550.

Dong Z#, Li H#, Xiao J, Sun J, Liu R, Zhang A.* (2022) Soil multifunctionality of paddy field is explained by soil pH rather than microbial diversity after 8-years of repeated applications of biochar and nitrogen fertilizer. Science of the Total Environment, 853,158620.

Zhang D, Kuzyakov Y, Zhu H, Alharbi H, Li H*, Rengel Z. (2022) Increased microbial biomass and turnover underpin efficient phosphorus acquisition by Brassica chinensis. Soil Tillage Research, 223, 105492.

Liu B, Han F, Ning P, LiH*, Rengel Z. (2022) Root traits and soil nutrient and carbon availability drive soil microbial diversity and composition in a northern temperate forest. Plant and Soil, 479, 281-299.

Xing K, Niinemets Ü, Rengel Z, Onoda Y, Xia J, Chen H, Zhao M, Han W, Li H* (2021) Global patterns of leaf construction traits and their covariation along climate and soil environmental gradients. New Phytologist, 232, 1648–1660. 

Wang X, Zhang J, Wang H, Rengel Z, Li H* (2023) Plasticity and co-variation of root traits govern phosphorus acquisition among 20 wheat genotypes. Oikos, 1, e08606. 

Wang X#, Li H#, Chu Q, Feng Gu, Kuyper TW, Rengel Z (2020) Mycorrhizal impacts on root trait plasticity of six maize varieties along a phosphorus supply gradient. Plant and Soil, 448, 71-86. 

Zhang D, Wang Y, Tang X, Zhang A*, Li H*, Rengel Z (2019) Early priority effects of occupying a nutrient patch do not influence final maize growth in intensive cropping systems. Plant and Soil, 442, 285-298.

Liu B, Li L, Rengel Z, Tian J, Li H*, Lu M (2019) Roots and arbuscular mycorrhizal fungi are independent in nutrient foraging strategies across subtropical tree species. Plant and Soil, 442, 97-112.

Li H, Brooker R, Wang X, Rengel Z, Zhang F, Davies W, Shen J.* (2019) Root competition resulting from spatial variation in nutrient distribution elicits decreasing maize yield at high planting density. Plant and Soil, 439, 219-232.

Li H, Zhang D, Wang X, Rengel Z, Zhang F, Shen J.* (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.

Li H, Liu B., McCormack M, Ma Z, Guo D.* (2017) Diverse belowground resource strategies underlie plant species coexistence and spatial distribution in three grasslands along a precipitation gradient. New Phytologist, 216: 1140-1150.

Li H, Ma Q, Li H,Zhang F, Rengel Z, Shen J.* (2016) Root over-production in heterogeneous nutrient environment has no negative effects on Zea mays shoot growth in the field. Plant and Soil, 409, 405-417.

Li H, Ma Q, Li H, Zhang F, Rengel Z, Shen J.* (2014)Root morphological responses to localized nutrient supply differ among crop species with contrasting root traits. Plant and Soil, 376, 151-163.

Li H, Zhang F, Shen J.* (2012) Contribution of root proliferation in nutrient-rich soil patches to nutrient uptake and growth of maize. Pedosphere, 22, 776-784.

李洪波, 薛慕瑶, 林雅茹, 申建波* (2013) 土壤养分空间异质性与根系觅食作用：从个体到群落。植物营养与肥料学报，19, 1002-1012.

周玮，李洪波*，曾辉 (2018) 不同水分梯度下西藏高寒草原群落植物根系属性变异格局。植物生态学报，42, 1104–1112.

合作发表文章：

Wu X, Li H, Rengel Z, Whalley W, Li H, Zhang F, Shen J, Jin K* (2022). Localized nutrient supply can facilitate root proliferation and increase nitrogen-use efficiency in compacted soil. Soil & Tillage Research, 215, 105198.

Sun J, Li H, Zhang D, Liu R, Zhang A*, Rengel Z (2021) Long-term biochar application governs the molecular components and decomposition of organic matter in paddy soil.  GCB Bioenergy, 13, 1939-1953.

Jin K, Li H, Li X, Li H, Dodd I, Belimov A, Davies W, Shen J (2021) Rhizosphere bacteria containing ACC deaminase decrease root ethylene emission and improve maize root growth with localized nutrient supply. Food Energy Security, 10, 275-284.

Liu B, Li HL, Li H, Zhang A, Rengel Z (2021) Long-term biochar application promotes rice productivity by regulating root dynamic development and reducing nitrogen leaching. GCB Bioenergy, 13, 257–268.

Liu, H, Li H,et al. (2020). Inhibited effect of biochar application on N2O emissions is amount and time-dependent by regulating denitrification in a wheat-maize rotation system in North China. Science of the Total Environment, 721, 137636.

Wen Z, Li H, et al. (2019) Trade-offs among root morphology, exudation and mycorrhizal symbioses for phosphorus-acquisition strategies of 16 crop species. New Phytologist, 232, 882-895.

Liu B, Li H, et al. (2015) Complementarity in nutrient foraging strategies of absorptive fine roots and arbuscular mycorrhizal fungi across 14 coexisting subtropical tree species, New Phytologist, 208, 125-136.

Zhang D, Lyu Y, Li H. et al. (2020). Neighbouring plants modify maize-root foraging for phosphorus: coupling nutrients and neighbours for improved nutrient-use efficiency. New Phytologist, 226, 244–253

Zhang D, Li H, et al. (2019) Increased planting density of Chinese milk vetch (Astragalus sinicus L.) weakens phosphorus uptake advantage by rapeseed (Brassica napus L.) in mixed cropping system. AoB Plants, 11, plz033.

Ma Q, Wang X, Li H, et al. (2015) Comparing localized application of different n fertilizer species on maize grain yield and agronomic N-use efficiency on a calcareous soil. Field Crops Research, 180, 72-79.

Ma Q, Wang X, Li H, et al. (2014) Localized application of NH4+-N plusP enhances zinc and iron accumulation in maize via modifying root traits and rhizosphere processes. Field Crops Research, 164, 107-116.

Wang X, Liu S,Zhang S, Li H, et al. (2018)Localized ammonium and phosphorus fertilization can improve cotton lint yield by decreasing rhizosphere soil pH and salinity. Field Crops Research, 217, 75-81.

张德闪，李洪波，申建波 (2017) 集约化互作体系植物根系高效获取土壤养分的策略与机制。植物营养与肥料学报，23, 1547-1555.