Volume 6, Issue 6, November 2018, Page: 182-185
Applied Research of Water and Fertilizer Integration Technology on Garlic
Wang Fei, Cash Crops Research Institute, Hubei Academy of Agricultural Sciences, Wuhan, China
Li Ning, Cash Crops Research Institute, Hubei Academy of Agricultural Sciences, Wuhan, China
Yin Yanxu, Cash Crops Research Institute, Hubei Academy of Agricultural Sciences, Wuhan, China
Gao Shenghua, Cash Crops Research Institute, Hubei Academy of Agricultural Sciences, Wuhan, China
Yu Chuying, Cash Crops Research Institute, Hubei Academy of Agricultural Sciences, Wuhan, China
Yao Minghua, Cash Crops Research Institute, Hubei Academy of Agricultural Sciences, Wuhan, China
Received: Aug. 10, 2018;       Accepted: Sep. 30, 2018;       Published: Oct. 29, 2018
DOI: 10.11648/j.ajaf.20180606.14      View  150      Downloads  16
Abstract
Garlic (Allium Sativum L.) is a favorite vegetable that is widely cultivated around the world. Traditional ditch irrigation and ground fertilization have many drawbacks, but the advantages of water and fertilizer integration are obvious. In order to study the effect of different irrigation and fertilizer treatments on the yield in a garlic field, the main garlic variety “er shui zao”in Dangyang city was used to be observed and compared the yield of garlic sprout and garlic bolt with different water and fertilizer integrated equipment and different fertilizer structures. Compared with the ditch irrigation treatment, irrigation water and fertilizer applications were reduced by 51.56% and 38.00% respectively both in the semi-fixed micro sprinkler irrigation treatment and mobile micro spray irrigation treatment throughout the growth cycle, but evident increase of the yields were found. The yields of garlic sprout and garlic bolt could reach 3845.56 kg/667m2 and 1010.45 kg/667m2 respectively in the treatment of semi-fixed micro-sprinkler irrigation combined with the leaf-specific water-soluble fertilizer. It could increase production and efficiency, and improve the water-fertilizer utilization ratio and mitigate the environmental contamination, achieving the production goal of saving costs and increasing profits.
Keywords
Water and Fertilizer Integration, Water Soluble Fertilization, Garlic
To cite this article
Wang Fei, Li Ning, Yin Yanxu, Gao Shenghua, Yu Chuying, Yao Minghua, Applied Research of Water and Fertilizer Integration Technology on Garlic, American Journal of Agriculture and Forestry. Vol. 6, No. 6, 2018, pp. 182-185. doi: 10.11648/j.ajaf.20180606.14
Copyright
Copyright © 2018 Authors retain the copyright of this article.
This article is an open access article distributed under the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/) which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
Reference
[1]
S. Meher, L. Duley, Garlic for preventing pre-eclampsia and its complications, Cochrane Database Syst Rev, 6 (2006) CD006175-CD006175.
[2]
H. Yuan, L. Li, J. Wang, H. Wang, S. N. A., Design and test of regulation and control equipment for nutrient solution of water and fertilizer integration in greenhouse, Transactions of the Chinese Society of Agricultural Engineering, (2016).
[3]
D. U. Zhong-Ping, Investigation Report on Israel Water-saving Integration and Integrated Water and Fertilizer, Science & Technology of Qinghai Agriculture & Forestry, (2012).
[4]
L. Liu, Qiqige, L. I. Yong, Study on Factors Affecting the Application of Drip Irrigation Water and Fertilizer Integration in Xinjiang Area, Journal of Anhui Agricultural Sciences, (2017).
[5]
Q. H. Kong, G. Y. Li, Y. H. Wang, Y. G. Wen, Influences of subsurface drip irrigation and surface drip irrigation on bell pepper growth under different fertilization conditions, Transactions of the Chinese Society of Agricultural Engineering, 26 (2010) 21-25.
[6]
J. Li, P. Yu, M. Li, Q. Liao, A. Liu, Effects of Water and Fertilizer Coupling on Plant Height and Yield of Summer Corn with Drip Irrigation, Shandong Chemical Industry, (2017).
[7]
J. Li, T. Pan, L. Wang, Q. Du, Y. Chang, D. Zhang, Y. Liu, Effects of water-fertilizer coupling on tomato photosynthesis, yield and water use efficiency, Transactions of the Chinese Society of Agricultural Engineering, 30 (2014) 82-90.
[8]
P. L. Yang, Z. P. Tang, Effects of Water and Fertilizer Integration on Yield and Benefit of Citrus, Journal of Anhui Agricultural Sciences, (2014).
[9]
C. Qian, B. Y. Rao, S. Q. Luo, Z. J. Wu, Effects of water and fertilizer coupling on the yield and quality of RADIX ANGELICAE SINENSIS, Medicinal Plant, (2012).
[10]
Y. Liu, C. Y. Shen, X. Y. Xiao, X. P. Liu, Z. H. Liao, Y. D. Zhong, R. J. Qiu, Z. Y. Li, Effects of water and fertilizer coupling on growth, yield, quality and fertilizer utilization rate of tobacco in dry land, Acta Agriculturae Jiangxi, (2012).
[11]
P. B. Wang, L. I. Jian-Ming, J. J. Ding, G. Y. Liu, T. H. Pan, D. U. Qing-Jie, Y. B. Chang, N. Aamp, Effect of Water and Fertilizer Coupling on Quality, Yield and Water Use Efficiency of Tomato Cultivated by Organic Substrate in Bag, Scientia Agricultura Sinica, (2015).
[12]
R. Zou, R. Ran, Y. Wang, A. Wang, X. Wang, D. U. Jiyan, Application Effects of Water and Fertilizer Integration Technology on Greenhouse Vegetables, Journal of Changjiang Vegetables, (2015).
[13]
H. Zhang, Experiment and demonstration on intelligent water-fertilizer integration and its application technology, Fujian Agricultural Science & Technology, (2012).
[14]
L. D. Lv, Application Effects of Water and Fertilizer Integration Technology on Greenhouse Vegetables, Journal of Agricultural & Technology, (2016).
[15]
L. Zhang,W. H. Li,M. Z. Fan,X. T. Wang,F. H. Jiang, L. T. Si, Effect of Cocopeat Planting Model Based on Integrative Water and Fertilizer Technology on Quality of Vegetables in Solar Greenhouse, Acta Agriculturae Jiangxi, (2016).
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