Agri-nanotechniques for Plant Availability of Nutrients

Mani, Pabitra Kumar; Mondal, Sudeshna

doi:10.1007/978-3-319-42154-4_11

Cited by 34 publications

(20 citation statements)

References 144 publications

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“…Due to the several unique physicochemical properties of nanoparticles or nanomateriales, nanotechnology has already penetrated many fields for great novel applications in the agriculture sector. These physicochemical properties include a very high reactivity, high surface area, tunable pore size and particle morphology (Belal and El-Ramady 2016; Mani and Mondal 2016;Panpatte et al 2016;Servin and White 2016;Shalaby et al 2016). Concerning the agricultural sectors, the applications of nanotechnology have been used in several fields including the fertilization sector (Mastronardi et al2015;Chhipa 2016;Chhipa and Joshi 2016;Dubey and Mailapalli 2016;Mani et al 2016;Monreal et al 2016;Panpatte et al 2016), plant protection (Bhattacharyya et al 2016Nuruzzaman et al 2016;Saharan and Pal 2016;, food sector (Ghanbarzadeh et al 2016;Eleftheriadou et al 2017;Grumezescu 2017;, precision farming (Gouma et al 2016;Chhipa and Joshi 2016;Neethirajan 2017), remediation of terrestrial environments (Belal and El-Ramady 2016;Gil-Díaz et al 2016a, b;Gomes et al 2016;Patra et al 2016;Gil-Díaz et al 2017), etc.…”

Section: Nanomaterials and Agroecosystemsmentioning

confidence: 99%

Nanomaterials and plant abiotic stress in agroecosystems

Elsakhawy

Omara

Alshaal

et al. 2018

EBSS

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Section: Nanomaterials and Agroecosystemsmentioning

confidence: 99%

Nanomaterials and plant abiotic stress in agroecosystems

Elsakhawy

Omara

Alshaal

et al. 2018

EBSS

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“…Having the limited resources, development of agriculture for the higher growth now becoming the management practices, and fertilizer management has proved the significant in a remarkable way [12,13]. Considering the novel method of fertilizer application as a form of nanoparticles has stimulated the attributes of plant growth by the upgradation of soil system [14]. As the field condition, fertilizers variation, pH of soil etc.…”

Section: Potential Application Of Nanoparticles As Fertilizer In Agriculturementioning

confidence: 99%

Potential Applications of Nanotechnology in Agriculture: A Smart Tool for Sustainable Agriculture

Tipu¹,

Baroi²,

Rana³

et al. 2022

Agricultural Development in Asia - Potential Use of Nano-Materials and Nano-Technology

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Most of the early uses of nanotechnology have come from material sciences, although applications in agriculture are still expanding. Due to a few comprehensive reviews, we described application of nanomaterials along with their fate in soil and interaction with soil and plant system. From synthesis to metabolism, nano-fertilizers like zinc, silver, selenium, titanium oxide have enhanced the physio-chemical characteristics of crop plants in every manner conceivable. On the other hand, it has the potential to minimize pesticide use by boosting reactivity and surface area of nanoparticles. Nanotechnology in pesticides will, without a doubt, replace the current way of pesticide application because of its efficacy. Nano-based approaches can readily overcome the constraints of conventional soil remediation technologies. While soil nanomaterials mobility has been investigated in a limited number of research studies, it’s likely the most critical gap in knowing the real risk of their transport. As well as enhancing plant nutrient absorption, nanomaterials may also be used to regulate soil microbial activity and stimulate plant defenses. When it comes to shipping food, nanotechnology has made things easier by extending the shelf life of most foods. While it offers tremendous potential for agricultural applications, the health effects of nanoparticles on plants, animals, and humans must be thoroughly investigated.

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“…3 (2019) NANOPARTICLES: A NOVEL APPROACH FOR SUSTAINABLE AGRO-PRODUCTIVITY be coated with nano-membranes that facilitate the slow and steady release of nutrients (Table 1; Singh and Prasad 2016). Furthermore, nutrients derived from nanoencapsulation or nanofertilzers have some properties like the controlled release of chemical fertilizers regulating plant growth, enhancing target activity and making them effective to crops demand (De Rosa et al 2010;Nair et al 2010;Mani and Mondal 2016;El-Ramady et al 2017b).…”

Section: Nano-fertilizersmentioning

confidence: 99%

“…Concerning nanoparticles and enhanced crop productivity, the crop production can be enhanced through the proper management of growth factors including fertilizers, irrigation, plant protection, cultural practices, etc. The previous practices may be enhanced by using nanomaterials such as nanofertilizers (Mastronardi et al 2015;Mani and Mondal 2016;Bradfield et al 2017), nanopesticides (Bhau et al 2016), nanosensors (Dubey and Mailapalli 2016;Chhipa and Joshi 2016), irrigation management (Singh and Kumar 2016) and nano-farming (Dwivedi et al 2016). It is worth to mention that, several factors effect on crop productivity including the physiological functions (uptake of nutrients and water, respiration, photosynthesis, transpiration, water relations, etc.)…”

Section: Nanoparticles and Enhanced Productivitymentioning

confidence: 99%

Nanoparticles: a Novel Approach for Sustainable Agro-productivity

Omara

Elsakhawy

Alshaal

et al. 2019

EBSS

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T HE GLOBAL agricultural production suffers from many problems and challenges including climate change, natural resources depletion, environmental pollution, soil degradation, etc. Hence, the global security of this vital sector definitely will be threaten including water security, soil security, energy security, food security, etc. Day by day, several attempts already have been conducted in seeking of the humanity for suitable and sustainable solutions to overcome these previous problems. Nanotechnology was and still one of the most important solutions, which will help us to overcome these problems. So, several nanomaterials have been successfully used in many agro-production fields including nanofertilizers, nanopesticides, nanoremediation, nanobiosensors as well as using of nanoparticles in agri-food production. These nanomaterials can help the agro-production to exploit the natural resources in more sustainable manner and to minimize the agro-wastes. Therefore, regulations for more safety in nanomaterials utilization for agro-production should be starting from the handling for seed germination till the handling for postharvest of agricultural products. Several investigations have been proved the importance of nanomaterials in global securities, the agro-production through the nano-agro-chemicals, management of the agro-wastes, etc. Therefore, this review will highlight new insights and novel approaches for using nanomaterials for sustainable agro-productivity. It will also include the impact of nanomaterials on the agro-environement and the enhanced productivity in frame of sustainability.

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Agri-nanotechniques for Plant Availability of Nutrients

Cited by 34 publications

References 144 publications

Nanomaterials and plant abiotic stress in agroecosystems

Nanomaterials and plant abiotic stress in agroecosystems

Potential Applications of Nanotechnology in Agriculture: A Smart Tool for Sustainable Agriculture

Nanoparticles: a Novel Approach for Sustainable Agro-productivity

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