[1]Physiological differences between gametophytes and sporophytes of five cultivar strains of Saccharina japonica. Xu, Dong,Xu, Dong,Fan, Xiao,Zhang, Xiaowen,Ye, Naihao,Zhuang, Zhimeng,Ye, Naihao.

[2]Physiological basis of photosynthetic tolerance to photooxidation and shading in rice. Li, X,Jiao, DM. 2000

[3]Carbon: Nitrogen: Phosphorus Stoichiometry in Fungi: A Meta-Analysis. Zhang, Ji,Zhang, Ji,Elser, James J.,Elser, James J.. 2017

[4]CHARACTERIZATION OF BULK SOIL HUMIN AND ITS ALKALINE-SOLUBLE AND ALKALINE-INSOLUBLE FRACTIONS. Gao, Shuqing,Gao, Qiang,Zhang, Jinjing,Wang, Lichun. 2015

[5]Genetic diversity and structure within and between wild and cultivated Saccharina japonica (Laminariales, Phaeophyta) revealed by SSR markers. Liu, Fuli,Yao, Jianting,Wang, Xiuliang,Duan, Delin,Liu, Fuli,Repnikova, Anna,Galanin, Dmitry A.. 2012

[6]A model for the growth of mariculture kelp Saccharina japonica in Sanggou Bay, China. Zhang, Jihong,Wu, Wenguang,Lin, Fan,Zhang, Jihong,Ren, Jeffrey S.. 2016

[7]Characterization of ribulose-1, 5-bisphosphate carboxylase/oxygenase and transcriptional analysis of its related genes in Saccharina japonica (Laminariales, Phaeophyta). Shao Zhanru,Li Qiuying,Yao Jianting,Duan Delin,Liu Fuli,Shao Zhanru,Li Qiuying. 2014

[8]EST-SSR markers derived from and its Laminaria digitata transferable application in Saccharina japonica. Liu, Fuli,Wang, Feijiu,Liu, Fuli,Duan, Delin. 2012

[9]Breeding, economic traits evaluation, and commercial cultivation of a new Saccharina variety "Huangguan No. 1". Liu, Fuli,Sun, Xiutao,Wang, Feijiu,Wang, Wenjun,Liang, Zhourui,Lin, Zhelong,Dong, Zhian.

[10]Lint yield and nitrogen use efficiency of field-grown cotton vary with soil salinity and nitrogen application rate. Zhang, Dongmei,Li, Weijiang,Xin, Chengsong,Tang, Wei,Eneji, A. Egrinya,Dong, Hezhong,Eneji, A. Egrinya. 2012

[11]IMPROVED NUTRIENT UPTAKE ENHANCES COTTON GROWTH AND SALINITY TOLERANCE IN SALINE MEDIA. Dai, J. L.,Duan, L. S.,Dong, H. Z.,Dai, J. L.. 2014

[12]Effects of plant density and nitrogen and potassium fertilization on cotton yield and uptake of major nutrients in two fields with varying fertility. Dong, Hezhong,Kong, Xiangqiang,Li, Weijiang,Tang, Wei,Zhang, Dongmei. 2010

[13]Effects of Intercropping with Accumulator on Nutrient Uptake of Galinsoga parviflora under Cd-Contaminated Soil. Yang, Shuting,Shi, Jun,Lv, Xiulan. 2016

[14]Comparison of the effects of brown planthopper, Nilaparvata lugens (Stal) (Homoptera : Delphacidae), and rice leaffolder, Cnaphalocrocis medinalis Guenee (Lepidoptera : Pyralidae), infestations and simulated damage on nutrient uptake by the roots of rice plants. Yin, JL,Wu, JC,Yu, YS,Liu, JL,Xie, M,Wan, FH. 2005

[15]Growth and nutrient uptake capacity of two co-occurring species, Ulva prolifera and Ulva linza. Liu, Feng,Luo, Min Bo,Xu, Zhao Li. 2012

[16]Effects of Boron and Paclobutrazol on Growth, Fruit Set, Nutrient Uptake, and Alternate Bearing of Muye Red Bayberry. Meng, Ci-Fu,Jiang, Pei-Kuen,Zhou, Guo-Mo,Xu, Qiu-Fang,Meng, Ci-Fu,Cao, Zhi-Hong,Cao, Zhi-Hong. 2012

[17]Influence of the system of rice intensification on rice yield and nitrogen and water use efficiency with different N application rates. Zhao, Limei,Wu, Lianghuan,Lu, Xinghua,Zhao, Limei,Li, Yongshan,Zhu, Defeng,Uphoff, Norman.

[18]The effect of nutrient concentrations, nutrient ratios and temperature on photosynthesis and nutrient uptake by Ulva prolifera: implications for the explosion in green tides. Fan, Xiao,Xu, Dong,Zhang, Xiaowen,Mou, Shanli,Ye, Naihao,Wang, Yitao,Cao, Shaona.

[19]Effects of Applying Accumulator Straw in Cd-Contaminated Soil on Nutrient Uptake of Galinsoga parviflora. Yang, Shuting,Shi, Jun,Lv, Xiulan. 2016

[20]Vigorous Root Growth Is a Better Indicator of Early Nutrient Uptake than Root Hair Traits in Spring Wheat Grown under Low Fertility. Wang, Yaosheng,Wang, Yaosheng,Jensen, Lars Stoumann,Magid, Jakob,Thorup-Kristensen, Kristian. 2016