Dynamic changes of nutrition in litchi foliar and effects of potassium-nitrogen fertilization ratio

文献类型: 外文期刊

第一作者: Li, G. L.

作者: Li, G. L.;He, Z. H.;Zhou, C. M.;Yao, L. X.

作者机构:

关键词: Litchi;Feizixiao;mineral elements;K2O/N ratio;yield

期刊名称:JOURNAL OF SOIL SCIENCE AND PLANT NUTRITION ( 影响因子:3.872; 五年影响因子:3.771 )

ISSN: 0718-9516

年卷期: 2015 年 15 卷 1 期

页码:

收录情况: SCI

摘要: Field experiments were conducted to determine the annual dynamic changes of element contents in litchi leaves and the effects of the potassium and nitrogen ratio (K2O/N ratios: 0.6, 0.8, 1.0, 1.2, and 1.4) on the yield and planting benefits of litchi. The cultivar 'Feizixiao' litchi planted in a typical acidic upland orchard was used as a subject. The following results were obtained. (1) The elemental contents of litchi leaves significantly varied during the different developmental stages. Throughout the developmental period, the elemental contents in litchi leaves were in the descending order of N > K > Ca > Mg > P > S > B > Zn > Mo. The K content showed a highly significant negative correlation with the Ca and Mg contents and significant negative correlation with the Zn content. The Ca, Mg, and Zn contents exhibited significantly positive correlation with each other. The N content was significantly negatively correlated with the S and B contents in leaves, and the S and B contents showed significant positive correlation with each other. The P content exhibited significant negative correlation with Ca and Si, whereas Ca and Si were significantly positively correlated with each other. (2) Under the same N application conditions, the yield and planting benefits of litchi initially increased and then subsequently decreased with increasing K2O/N ratio. litchi had the highest yield and plant benefit when the ratio of K2O to N ranged from 1.0 to 1.2. Thus, this ratio is recommended for the main litchi production areas in China.

分类号:

  • 相关文献

[1]Effect of Application Ratio of Potassium over Nitrogen on Litchi Growth and Fruit Quality. Li, G. L.,Yang, B. M.,He, Z. H.,Zhou, C. M.,Tu, S. H.. 2014

[2]Effect of Application Ratio of Potassium over Nitrogen on Litchi Fruit Yield, Quality, and Storability. Li, Guoliang,Yang, Shaohai,He, Zhaohuan,Zhou, Changmin,Yao, Lixian.

[3]Determination of Nineteen Kinds of Mineral Elements Content of Genetically Modified Antidwarf Mosaic Maize by AES, AAS and ICP-MS. Yan, Pingmei,Wang, Qing,Yan, Xiaoyan,Chang, Xiao-Hui,Du, Jian-zhong,Sun, Yi.

[4]Combined Stable Isotopes and Multi-element Analysis to Research the Difference Between Organic and Conventional Chicken. Lv, Jun,Zhao, Yan,Lv, Jun.

[5]Analysis of Mineral Elements, Metabolism, and Inflammation Indexes in the Plasma of Dairy Cows Suffering from Different Degrees of Lameness. Sun, Dongbo,Li, Chunqiu,Gu, Cheng,Qu, Yongli,Wang, Xinyu,Gao, Jing,Wei, Shan,Wang, Jianfa,Wu, Rui,Guo, Donghua,Sun, Dongbo,Chen, Jianfei.

[6]Correlation of Mineral Elements Between Milled and Brown Rice and Soils in Yunnan Studied by ICP-AES. Zeng Ya-wen,Du Juan,Yang Shu-ming,Wang Yu-chen,Sun Zheng-hai,Pu Xiao-ying,Du Wei,Wang Lu-xiang,Li Qi-wan,Zeng Ya-wen,Wang Yu-chen,Sun Zheng-hai. 2009

[7]Evaluation of mineral element contents in Paris polyphylla var. yunnanensis from Southwest China. Zhang, Jinyu,Yu, Hong,Zhang, Jinyu,Wang, Yuanzhong,Zhang, Ji,Ding, Yongli,Jin, Hang,Ding, Yongli. 2011

[8]Effects of Long-Term Green Manure Application on the Concentrations of Mineral Elements in Grain of Dryland Wheat in Northwest of China. Bai Jin-shun,Cao Wei-dong,Zeng Nao-hua,Gao Song-juan,Cao Wei-dong,Bao Xing-guo,Rui Yu-kui,Katsuyoshi, Shimizu. 2017

[9]Application of ICP-MS to Detection of Mineral Elements and Heavy Metals in Cassava's Byproducts. Lue Fei-jie,Tai Jian-xiang,Tao Hai-teng,Zhang Chun-jiang,Chen Xiao-ming,Li Kai-mian. 2009

[10]Principal Component Analysis of Mineral Elements and Fatty Acids Composition in Flaxseed from Ten Different Regions. Xing Li,Zhao Feng-min,Cao You-fu,Wang Mei,Mei Shuai,Li Shao-ping,Cai Zhi-yong. 2014

[11]Identification of genetic loci associated with crude protein and mineral concentrations in alfalfa (Medicago sativa) using association mapping. Jia, Congjun,Chen, Min,Liu, Xiqiang,Gong, Pan,Wang, Xuemin,Gao, Hongwen,Wang, Zan,Wu, Xinming,Wang, Yunqi,Xu, Qingfang. 2017

[12]Determination of Mineral Elements in Brown Rice of Near-Isogenic Lines Population for Japonica Rice by ICP-AES. Wang Lu-xiang,Li Qi-wan,Zeng Ya-wen,Sun Zheng-hai,Yang Shu-ming,Du Juan,Pu Xiao-ying,Du Wei,Zeng Ya-wen,Xiao Feng-hui,Sun Zheng-hai. 2008

[13]Effect of Co-60 gamma ray irradiation on contents of La, Pr, Yb and mineral elements in fruitbodies of Agaricus biazei Murvill. Boqi, W,Jiang, ZH,Huang, JM,Wang, YX,Yong, L,Tao, L. 2005

[14]Determination and Multivariate Analysis of Mineral Elements in the Medicinal Hoelen Mushroom, Wolfiporia extensa (Agaricomycetes), from China. Sun, Jing,Li, Wanyi,Sun, Jing,Zhang, Ji,Zhao, Yanli,Wang, Yuanzhong,Li, Wanyi.

[15]Estimation of litchi (Litchi chinensis Sonn.) leaf nitrogen content at different growth stages using canopy reflectance spectra. Wang, Congyang,Liu, Wei,Huang, Siyu,Chen, Shuisen,Peng, Zhiping,Huang, Jichuan.

[16]Development of a model for quality evaluation of litchi fruit. Cao, Ying,Gao, Haiyan,Chen, Hangjun,Fang, Xiangjun,Mu, Honglei,Tao, Fei,Jiang, Yueming.

[17]Antioxidant activities of different fractions of polysaccharide purified from pulp tissue of litchi (Litchi chinensis Sonn.). Kong, Fan-Li,Zhang, Ming-Wei,Chi, Jian-Wei,Wei, Zhen-Cheng,Kong, Fan-Li,Yu, Shu-Juan,Kuang, Rui-Bin.

[18]Antioxidant activities and contents of polyphenol oxidase substrates from pericarp tissues of litchi fruit. Jiang, Yueming,Wei, Xiaoyi,Shi, Jinyu,Yi, Chun,Sun, Jian,Jiang, Yueming,Shi, John,Xue, Sophia Jun.

[19]A simple pollen collection, dehydration, and long-term storage method for litchi (Litchi chinensis Sonn.). Wang, Limin,Wu, Jiefang,Chen, Jiezhen,Fu, Danwen,Zhang, Chunyang,Cai, Changhe,Ou, Liangxi,Wang, Limin,Wu, Jiefang,Chen, Jiezhen,Fu, Danwen,Zhang, Chunyang,Cai, Changhe,Ou, Liangxi.

[20]Production of quercetin, kaempferol and their glycosidic derivatives from the aqueous-organic extracted residue of litchi pericarp with Aspergillus awamori. Lin, Sen,Zhu, Qinqin,Wen, Lingrong,Yang, Bao,Jiang, Guoxiang,Jiang, Yueming,Gao, Haiyan,Chen, Feng,Lin, Sen,Zhu, Qinqin,Jiang, Guoxiang.

作者其他论文 更多>>

微信小程序