Growth, Yield, Irrigation Water Use Efficiency, Juice Quality and Economics of Sugarcane in Pusa Hydrogel Application Under Different Irrigation Scheduling

Singh, Ishwar; Verma, Ram Ratan; Srivastava, T. K.

doi:10.1007/s12355-017-0515-9

Cited by 29 publications

(16 citation statements)

References 7 publications

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“…The use of biotechnology has also been important in establishing the performance of micropropagated plants [92], for developing varieties that are tolerant to salt and drought [93], or genetically modified cultivars [94]. The evaluation of fertilizers [95,96], herbicides [97], soil conservation [98], and irrigation system efficiency [99] have also been important topics, as well as the use of various agricultural techniques to improve yields, such as precision agriculture [100] and remote sensing [101]. Sustainability has been also a significant research topic, for example: minimum tillage systems in sugarcane [102].…”

Section: Discussionmentioning

confidence: 99%

What Has Been the Focus of Sugarcane Research? A Bibliometric Overview

Figueroa-Rodríguez

Hernández‐Rosas

Sandoval

et al. 2019

IJERPH

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Sugarcane is one of the main crops worldwide, and it has an important impact on environmental issues. A bibliometric mapping analysis of the research on sugarcane was carried out, using data on the titles, abstracts, and keywords of articles published in leading journals and other peer-reviewed documents available in the SCOPUS database from 1858 to 2019 (27 August), and this was subsequently analyzed with the software VOSviewer. The three most important countries that publish research and were most-cited regarding sugarcane were Brazil, the USA, and India. The analysis of the co-occurrence of terms shows that the main research areas were sugarcane bagasse and terms related to bioenergy, and on a second level of relevance agronomy topics related to increasing crop yields. This first attempt to visualize the abundance of publications regarding sugarcane in their totality is in itself a good starting point for further scientific discussion.

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Section: Discussionmentioning

confidence: 99%

What Has Been the Focus of Sugarcane Research? A Bibliometric Overview

Figueroa-Rodríguez

Hernández‐Rosas

Sandoval

et al. 2019

IJERPH

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“…Em razão dos ganhos de produtividade do sistema irrigado de produção, tanto em relação a TCH quanto TAH, a produção irrigada pode ser mais eficiente no uso da água do que a produção de sequeiro CALGARO et al, 2013;SILVA et al, 2013;BUFON et al, 2014;OLIVER;SINGELS, 2015;SINGH, 2018;.…”

Section: Produtividade Da áGuaunclassified

Agricultura irrigada no Brasil: inovação, empreendedorismo e sistemas de produção

2022

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A evolução da tecnologia da irrigação associada aos aspectos agronômicos permitiu um avanço no entendimento do sistema de produção e, com isso, o desenvolvimento da agricultura irrigada, onde a produção vegetal está associada a um novo paradigma, envolvendo a escolha de uma rotação de cultura adequada do ponto de vista agronômico, comercial e da sustentabilidade. O sistema de produção passou a exigir diferentes estratégias caracterizando que a agricultura irrigada é distinta da agricultura de sequeiro mais aplicação de água. Questiona-se não só o que plantar, mas também qual variedade cultivada seria mais adequada a disponibilidade permanente da água, possibilidade de organizar o calendário de cultivos com vista a um melhor atendimento do mercado, novos critérios de planejamento da fertilização da cultura e dos tratamentos fitossanitários, com o uso da quimigação como uma das suas principais tecnologias que é a fertirrigação. Para isso, foi fundamental o incentivo e a apropriação das inovações que cada dia permitem uma melhor condução e acompanhamento do sistema produtivo. Os temas inovação, empreendedorismo e sistemas de produção sem vírgula são tratados dentro das diferentes abordagens da agricultura irrigada no Brasil, constituindo uma importante contribuição para o desenvolvimento sustentável da agricultura irrigada brasileira e mundial.

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“…Field water use efficiency sometimes termed as Irrigation water use efficiency (IWUE) Singh et al [20] is the crop yield produced (kg/ha) per the applied volume of the irrigation water (m 3 /ha). It was calculated by the following equation [21,22]:…”

Section: Analysis Of Plant and Soil Samplesmentioning

confidence: 99%

Impact of Irrigation Intervals on the Yield and Quality of Lupine (Lupinus termis L.) Grown in Sandy Soil Amended by an Organic Amendment

Rashad

El-Agyzy

Abdel-Azeem

2018

ASRJ

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Aims: Two field experiments have been carried out to study the effect of different irrigation periods in the presence of compost as an organic amendment on the yield and quality of lupine (Lupinus termis L.) under the sandy soil conditions. Study Design: Split-plot design. Place and Duration of Study: The successive winter seasons of 2016/2017 and 2017/2018 at the Ismailia Agricultural Research Station, (30°35'30" N 32°14'50" E elevation 3 m), Agricultural Research Center (ARC), Egypt. Methodology: Compost has been applied at the rates of 11.90, 23.81 and 35.71 ton/ha before planting. Three irrigation intervals were assigned after planting by 3, 6, and 9 days; the applied water volume for each was 4761.91 m3/ha. Results: After harvesting, some parameters were estimated. As the compost rates increased, the soil EC significantly decreased while the available N, P, K, and Fe were significantly increased by 9.51, 12.79, 5.17, and 5.8%, respectively. For same compost rate, the irrigation intervals (3, 6, and 9 days) significantly decreased the available N relatively by 2.88, 5.16, and 6.96%, respectively and the available K by 3.45, 5.06, and 4.37%, respectively. The 6 days interval showed that most significant increase in the seeds' content of nutrients at different compost rates and the seed yield has increased by 19.59, 22.31, and 21.88% for the compost rates of 11.90, 23.81, and 35.71 ton/ha, respectively. The relative increase was by 20.48, 7.63, 4.49, 10.89, and 14.92% for the crude protein, crude lipids, total ash, TSS and the amino acids, respectively. The effect of treatments on the relative shoot moisture (%) and the field water use efficiency (F.W.U.E.) (kg/m3) was discussed. Conclusion: The 6 days irrigation interval along with a compost application rate of 23.81 ton/ha can be recommended for lupine grown in sandy soil as they showed the most significant increase in the nutrients content of seeds by 22.31%.

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Growth, Yield, Irrigation Water Use Efficiency, Juice Quality and Economics of Sugarcane in Pusa Hydrogel Application Under Different Irrigation Scheduling

Cited by 29 publications

References 7 publications

What Has Been the Focus of Sugarcane Research? A Bibliometric Overview

What Has Been the Focus of Sugarcane Research? A Bibliometric Overview

Agricultura irrigada no Brasil: inovação, empreendedorismo e sistemas de produção

Impact of Irrigation Intervals on the Yield and Quality of Lupine (Lupinus termis L.) Grown in Sandy Soil Amended by an Organic Amendment

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