Titanium as a Beneficial Element for Crop Production

文献类型: 外文期刊

第一作者: Lyu, Shiheng

作者: Lyu, Shiheng;Wei, Xiangying;Chen, Jianjun;Pan, Dongming;Lyu, Shiheng;Wei, Xiangying;Chen, Jianjun;Wang, Cun;Wang, Cun;Wang, Xiaoming

作者机构:

关键词: beneficial elements;ferric chelat ereductase;ferritins;iron;metal transporter;nano-TiO2 particles (TiO(2)NPs);titanium

期刊名称:FRONTIERS IN PLANT SCIENCE ( 影响因子:5.753; 五年影响因子:6.612 )

ISSN: 1664-462X

年卷期: 2017 年 8 卷

页码:

收录情况: SCI

摘要: Titanium (Ti) is considered a beneficial element for plant growth. Ti applied via roots or leaves at low concentrations has been documented to improve crop performance through stimulating the activity of certain enzymes, enhancing chlorophyll content and photosynthesis, promoting nutrient uptake, strengthening stress tolerance, and improving crop yield and quality. Commercial fertilizers containing Ti, such as Tytanit and Mg-Titanit, have been used as biostimulants for improving crop production; however, mechanisms underlying the beneficial effects still remain unclear. In this article, we propose that the beneficial roles Ti plays in plants lie in its interaction with other nutrient elements primarily iron (Fe). Fe and Ti have synergistic and antagonistic relationships. When plants experience Fe deficiency, Ti helps induce the expression of genes related to Fe acquisition, thereby enhancing Fe uptake and utilization and subsequently improving plant growth. Plants may have proteins that either specifically or nonspecifically bind with Ti. When Ti concentration is high in plants, Ti competes with Fe for ligands or proteins. The competition could be severe, resulting in Ti phytotoxicity. As a result, the beneficial effects of Ti become more pronounced during the time when plants experience low or deficient Fe supply.

分类号:

  • 相关文献

[1]Iron nutrition affects cadmium accumulation and toxicity in rice plants. Shao, Guosheng,Chen, Mingxue,Wang, Weixia,Mon, Renxiang,Zhang, Guoping.

[2]The effects of copper, iron and zinc on digestive enzyme activity in the hybrid tilapia Oreochromis niloticus (L.) x Oreochromis aureus (Steindachner). Li, J. -S.,Li, J. -L.,Wu, T. -T.. 2007

[3]The effects of nutritional restriction on neutral lipid accumulation in Chlamydomonas and Chlorella. Deng, Xiaodong,Fei, Xiaowen,Li, Yajun,Fei, Xiaowen. 2011

[4]Comparison on cellular mechanisms of iron and cadmium accumulation in rice: prospects for cultivating Fe-rich but Cd-free rice. Gao, Lei,Chang, Jiadong,Chen, Ruijie,Li, Hubo,Lu, Hongfei,Xiong, Jie,Gao, Lei,Chang, Jiadong,Chen, Ruijie,Li, Hubo,Lu, Hongfei,Xiong, Jie,Tao, Longxing. 2016

[5]Structure and expression of transferrin gene of channel catfish, Ictalurus punctatus. Liu, Hong,Takano, Tomokazu,Abernathy, Jason,Wang, Shaolin,Sha, Zhenxia,Jiang, Yanliang,Terhune, Jeffery,Kucuktas, Huseyin,Peatman, Eric,Liu, Zhanjiang,Liu, Hong,Takano, Tomokazu,Abernathy, Jason,Wang, Shaolin,Sha, Zhenxia,Jiang, Yanliang,Terhune, Jeffery,Kucuktas, Huseyin,Peatman, Eric,Liu, Zhanjiang,Liu, Hong,Sha, Zhenxia. 2010

[6]Combined treatment with vitamin A and iron to prevent piglet anemia. Jiang, JunFang,Jiang, YongQing,Jiang, JunBing,Zhu, HuiSen. 2009

[7]Determination of Dietary Iron Requirements by Full Expression of Iron-Containing Enzymes in Various Tissues of Broilers. Ma, Xinyan,Liao, Xiudong,Lu, Lin,Zhang, Liyang,Luo, Xugang,Ma, Xinyan,Li, Sufen.

[8]Effect of iron supplementation on intestinal function and oxidative stress in piglets with induced colitis. Chen, Q.,Le, G. W.,Shi, Y. H.,Zhang, Sh. M.,Jin, X..

[9]Identification and characterization of a Macrobrachium nipponense ferritin subunit regulated by iron ion and pathogen challenge. Sun, Shengming,Gu, Zhimin,Gu, Zhimin,Sun, Shengming,Fu, Hongtuo,Zhu, Jian,Ge, Xianping,Xuan, Fujun.

[10]Studies on resistance characteristic and cDNA sequence conservation of transferrin from crucian carp, Carassius auratus. Long, Hua,Yu, Qi-Xing.

[11]Characterization of natural variation for zinc, iron and manganese accumulation and zinc exposure response in Brassica rapa L.. Wu, Jian,Schat, Henk,Sun, Rifei,Koornneef, Maarten,Wang, Xiaowu,Aarts, Mark G. M..

[12]Effect of manganese spatial distribution in the soil profile on wheat growth in rice-wheat rotation. Liu, XJ,Li, L,Zhang, FS,Zeng, XZ,Tang, CX.

[13]Determination of dietary iron requirements by full expression of iron-containing cytochrome c oxidase in the heart of broilers from 22 to 42 d of age. Liao, Xiudong,Ma, Chunyan,Lu, Lin,Zhang, Liyang,Luo, Xugang. 2017

[14]Review: Breeding wheat for enhanced micronutrients. Xu, Yunfeng,An, Diaoguo,Xu, Hongxing,Li, Hongjie. 2011

[15]Can liming reduce cadmium (Cd) accumulation in rice (Oryza sativa) in slightly acidic soils? A contradictory dynamic equilibrium between Cd uptake capacity of roots and Cd immobilisation in soils. Yang, Yongjie,Chen, Jiangmin,Huang, Qina,Tang, Shaoqing,Hu, Peisong,Shao, Guosheng,Chen, Jiangmin,Wang, Jianlong. 2018

[16]Fouling of extracellular algal organic matter during ultrafiltration: The influence of iron and the fouling mechanism. Huang, Weiwei,Zhou, Wenzong,Lv, Weiguang,Huang, Weiwei,Hu, Mengliu,Qin, Xiao,Dong, Bingzhi. 2017

[17]Identification and characterization of the zinc-regulated transporters, iron-regulated transporter-like protein (ZIP) gene family in maize. Li, Suzhen,Huang, Yaqun,Zhu, Liying,Zhao, Yongfeng,Guo, Jinjie,Chen, Jingtang,Li, Suzhen,Zhou, Xiaojin,Zhang, Shaojun,Chen, Rumei. 2013

[18]Excessive nitrate enhances cadmium (Cd) uptake by up-regulating the expression of OsIRT1 in rice (Oryza sativa). Yang, Yongjie,Fu, Guanfu,Chen, Tingting,Tao, Longxing,Xiong, Jie,Chen, Ruijie,Xiong, Jie,Chen, Ruijie.

[19]Effect of wheat pearling on flour phytase activity, phytic acid, iron, and zinc content. Liu, Zhenghui,Wang, Haiyan,Wang, Xu-E,Xu, Hongyan,Chen, Peidu,Liu, Dajun,Gao, Derong,Zhang, Guoping. 2008

[20]Nutrient supplementation increased growth and nitrate concentration of lettuce cultivated hydroponically with biogas slurry. Liu, Wen Ke,Du, Lian Feng. 2011

作者其他论文 更多>>

微信小程序