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Plant-microbes-engineered nano-parti...

Singh, Pardeep.

Plant-microbes-engineered nano-particles (PM-ENPs) nexus in agro-ecosystemsunderstanding the interaction of plant, microbes and engineered nano-particles (ENPS) /

Record Type:	Electronic resources : Monograph/item
Title/Author:	Plant-microbes-engineered nano-particles (PM-ENPs) nexus in agro-ecosystemsedited by Pardeep Singh ... [et al.].
Reminder of title:	understanding the interaction of plant, microbes and engineered nano-particles (ENPS) /
other author:	Singh, Pardeep.
Published:	Cham :Springer International Publishing :2021.
Description:	x, 215 p. :ill., digital ;24 cm.
Contained By:	Springer Nature eBook
Subject:	Plant-microbe relationships.
Online resource:	https://doi.org/10.1007/978-3-030-66956-0
ISBN:	9783030669560$q(electronic bk.)

Plant-microbes-engineered nano-particles (PM-ENPs) nexus in agro-ecosystemsunderstanding the interaction of plant, microbes and engineered nano-particles (ENPS) /
Plant-microbes-engineered nano-particles (PM-ENPs) nexus in agro-ecosystemsunderstanding the interaction of plant, microbes and engineered nano-particles (ENPS) /[electronic resource] :edited by Pardeep Singh ... [et al.]. - Cham :Springer International Publishing :2021. - x, 215 p. :ill., digital ;24 cm. - Advances in science, technology & innovation, IEREK interdisciplinary series for sustainable development,2522-8714. - Advances in science, technology & innovation, IEREK interdisciplinary series for sustainable development..

Engieered Nanoparticles (ENPs) in Agricultural Revolution: An Enticing Domain to Move Carefully -- Nanotechnology: Advancement for Agricultural Sustainability -- Nanotechnology for sustainable crop production: recent development and strategies -- Interaction of Titanium dioxide nanoparticles with Plants in Agroecosystems -- Interaction of nano-TiO2 with plants: Preparation and translocation -- Plant physiological responses to engineered nanoparticles -- Engineered nanoparticles in agro-ecosystems: implications on the soil health -- Effect of engineered nanoparticles on soil attributes and potential in reclamation of degraded lands -- Advances of Engineered Nanofertilizers for Modern Agriculture -- Nano-fertilizers and Nano-pesticides as Promoters of Plant Growth in Agriculture -- Bio-nanosensors: Synthesis and their substantial role in agriculture.

This book presents a collection of cross-disciplinary research, with contributions addressing all key features of the plant/microbe/ENP nexus in agro-ecosystems. The uptake, transport and transformation of nanoparticles in plants have attracted more and more attention in the past several years. Especially, the impact of Engineered Nanoparticles (ENPs) on bioprocesses; low-, medium- and high-level dose responses in the microbial community of soil; and long-, medium- and short-term exposure responses, particularly microbial nitrogen transformations, are just a few of the aspects involved. Since ENPs are used in many industries, including cosmetics, agriculture, medicine, food technology and waste management, their transport through biogeochemical cycles is an important focus of many studies today. Specifically, ENP-microbe interaction has been analysed with regard to disease treatment for plants; it plays a vital role in disease inhibition by releasing metal ions that act through many pathways - e.g. reactive oxygen species (ROS) generation, DNA transformation and disruption of the cell cycle - to stop cell growth in the pathogen. Due to these properties, ENPs are also used as slow release or delayed release pesticides and fungicides, and as carrier systems for growth-promoting hormones. Despite their multiple uses in various industries, the negative effects of ENPs are still a major concern for the scientific community and consumers alike. For example, their transport to various food chains has been reported to have adverse effects. This raises a degree of doubt concerning a rapidly growing scientific field with major applications in many industries. From a sustainable development perspective and particularly to ensure food security in light of the uncertainty accompanying climate change, it is imperative to address this divergence by focusing on the plant/microbe/ENP nexus.

ISBN: 9783030669560$q(electronic bk.)

Standard No.: 10.1007/978-3-030-66956-0doiSubjects--Topical Terms:

278422
Plant-microbe relationships.

LC Class. No.: QR351 / .P536 2021

Dewey Class. No.: 579.178

Plant-microbes-engineered nano-particles (PM-ENPs) nexus in agro-ecosystemsunderstanding the interaction of plant, microbes and engineered nano-particles (ENPS) /
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520 $a This book presents a collection of cross-disciplinary research, with contributions addressing all key features of the plant/microbe/ENP nexus in agro-ecosystems. The uptake, transport and transformation of nanoparticles in plants have attracted more and more attention in the past several years. Especially, the impact of Engineered Nanoparticles (ENPs) on bioprocesses; low-, medium- and high-level dose responses in the microbial community of soil; and long-, medium- and short-term exposure responses, particularly microbial nitrogen transformations, are just a few of the aspects involved. Since ENPs are used in many industries, including cosmetics, agriculture, medicine, food technology and waste management, their transport through biogeochemical cycles is an important focus of many studies today. Specifically, ENP-microbe interaction has been analysed with regard to disease treatment for plants; it plays a vital role in disease inhibition by releasing metal ions that act through many pathways - e.g. reactive oxygen species (ROS) generation, DNA transformation and disruption of the cell cycle - to stop cell growth in the pathogen. Due to these properties, ENPs are also used as slow release or delayed release pesticides and fungicides, and as carrier systems for growth-promoting hormones. Despite their multiple uses in various industries, the negative effects of ENPs are still a major concern for the scientific community and consumers alike. For example, their transport to various food chains has been reported to have adverse effects. This raises a degree of doubt concerning a rapidly growing scientific field with major applications in many industries. From a sustainable development perspective and particularly to ensure food security in light of the uncertainty accompanying climate change, it is imperative to address this divergence by focusing on the plant/microbe/ENP nexus.
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