Plant Biostimulation with Nanomaterials / edited by Antonio Juárez-Maldonado, Adalberto Benavides-Mendoza, Damaris Leopoldina Ojeda-Barrios, Gonzalo Tortella Fuentes, Amedea B. Seabra.

Format:

Book

Author/Creator:

Juárez-Maldonado, Antonio.

Contributor:

Benavides Mendoza, Adalberto.

Ojeda-Barrios, Damaris Leopoldina.

Tortella Fuentes, Gonzalo.

Seabra, Amedea B.

Series:

Smart Nanomaterials Technology, 3004-8281

Language:

English

Subjects (All):

Nanobiotechnology.

Plant biotechnology.

Nanochemistry.

Plant Biotechnology.

Local Subjects:

Nanobiotechnology.

Plant Biotechnology.

Nanochemistry.

Physical Description:

1 online resource (661 pages)

Edition:

1st ed. 2025.

Place of Publication:

Singapore : Springer Nature Singapore : Imprint: Springer, 2025.

Summary:

This book covers the topic of biostimulation of crops using nanomaterials to increase crop production and quality improvement, accompanied by the reduction of environmental impact in the form of less use of pesticides and greater efficiency in the use of fertilizers and water. Different classes of biostimulants have been recognized and studied, but nanomaterials are among the most recently considered with a dual category of biostimulation-inducing physical and chemical agents. The physical process of biostimulation occurs through interactions at the interfaces of the nanomaterial corona and cell walls and membranes. In contrast, the chemical process depends on the corona and core composition. The chapters in this book present the different topics of biostimulation with nanomaterials with the consideration of different spheres of organization, from the molecular view to agricultural ecosystems. It looks at the interactions between nanomaterials and plant cells that differ depending on the corona's size, shape, specific surface, and composition, in addition to the dynamic biological contexts of development and interaction with other environmental factors. The book caters to researchers and scientists who are interested in the biostimulation of crops using nanomaterials and their long-term ecological impact.

Contents:

Hormesis and nanomaterials: From biostimulation to toxicity

Biostimulation of crops with nanomaterials from a transcriptomic perspective

Changes in the activity of plant enzymes and proteins associated with biostimulation with nanomaterials

Changes in the composition of minerals and metabolites in plants exposed to nanomaterials

Use of nanomaterials for the in vitro production of plants and plant metabolites

Physiological and morphological responses of crops when applying nanostimulants

Induction of tolerance to biotic stress by applying nanostimulants to crops

Induction of tolerance to abiotic stress by applying nanostimulants to crops

Improvement in the nutritional quality of crops using nanostimulants

Use of nanomaterials and nanofertilizers to increase fertilizer use efficiency

Impact of nanomaterials on the post-harvest life of fruits and vegetables

Microbial biosynthesis of biostimulant nanomaterials and nanofertilizers

Plant biosynthesis of biostimulant nanomaterials and nanofertilizers

The flow and transformations of nanomaterials in agricultural ecosystems

Nanomaterials in the food chains.

ISBN:

981-9646-48-0

OCLC:

1524422630