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The book discusses the complex interactions between plants and
their associated microbial communities. It also elucidates the ways
in which these microbiomes are connected with the plant system, and
how they affect plant health. The different chapters describe how
microbiomes affect plants with regard to immunity, disease
conditions, stress management and productivity. In addition, the
book describes how an 'additional plant genome' functions as a
whole organ system of the host, and how it presents both challenges
and opportunities for the plant system. Moreover, the book includes
a dedicated section on using omics tools to understand these
interactions, and on exploiting them to their full potential.
This book addresses "phyto-microbiome mediated stress regulation".
Fundamentally speaking, the microbial community's importance for
the survival of plants under stress conditions has already been
confirmed. This book focuses on the roles of those rhizospheric
microbiomes that are advantageous to plant developmental pathways.
Gathering contributions by authors with specialized expertise in
plant growth and health under stress conditions, as well as
opportunistic pathogenic bacteria, the book reviews the functional
aspects of rhizospheric microorganisms and how they impact plant
health and disease. It offers a compendium of plant and microbial
interactions at the level of multitrophic interactions, and
identifies gaps between future demand and present research on plant
stress. In closing, the authors highlight several directions for
reshaping rhizosphere microbiomes in favor of microorganisms that
are beneficial to plant growth and health.
With the recent shift of chemical fertilizers and pesticides to
organic agriculture, the employment of microbes that perform
significant beneficial functions for plants has been highlighted.
This book presents timely discussion and coverage on the use of
microbial formulations, which range from powdered or charcoal-based
to solution and secondary metabolite-based bioformulations.
Bioformulation development of biofertilizers and biopesticides
coupled with the advantages of nanobiotechnology propose
significant applications in the agricultural section including
nanobiosensors, nanoherbicides, and smart transport systems for the
regulated release of agrochemical. Moreover, the formulation of
secondary metabolites against individual phytopathogens could be
used irrespective of geographical positions with higher disease
incidences. The prospective advantages and uses of
nanobiotechnology generate tremendous interest, as it could augment
production of agricultural produce while being cost-effective both
energetically and economically. This bioformulation approach is
incomparable to existing technology, as the bioformulation would
explicitly target the particular pathogen without harming the
natural microbiome of the ecosystem. Nanobiotechnology in
Bioformulations covers the constraints associated with large-scale
development and commercialization of bioinoculant formations.
Furthermore, exclusive emphasis is be placed on next-generation
efficient bioinoculants having secondary metabolite formulations
with longer shelf life and advanced competence against several
phytopathogens. Valuable chapters deal with bioformulation
strategies that use divergent groups of the microbiome and include
detailed diagrammatic and pictorial representation. This book will
be highly beneficial for both experts and novices in the fields of
microbial bioformulation, nanotechnology, and
nano-microbiotechnology. It discusses the prevailing status and
applications available for microbial researchers and scientists,
agronomists, students, environmentalists, agriculturists, and
agribusiness professionals, as well as to anyone devoted to
sustaining the ecosystem.
Fungal nanobionics has great prospects for developing new products
with industrial, agriculture, medicine and consumer applications in
a wide range of sectors. The fields of chemical engineering,
agri-food, biochemical, pharmaceuticals, diagnostics and medical
device development all employ fungal products, with fungal
nanomaterials currently used in a wide range of applications,
ranging from drug development to food industry and agricultural
sector. The fungal agents emerge as an environmentally friendly,
clean, non-toxic agent for the biogenic metal nanoparticles and
employs both intracellular and extracellular methods. The
simplicity of scaling up and downstream processing and the presence
of fungal mycelia affording an increased surface area provide key
advantages. In addition, the larger spectrum of synthesized
nanoparticle morphologies and the substantially faster biosynthesis
rate in cell-free filtrate (due to the higher amount of proteins
secreted in fungi) make this a particularly enticing route.
Understanding the diversity of fungi in assorted ecosystems, as
well as their interactions with other microorganisms, animals and
plants, is essential to underpin real and innovative technological
developments and the applications of metal nanoparticles in many
disciplines including agriculture, catalysis, and biomedical
biosensors. Importantly, biogenic fungal nanoparticles show
significant synergistic characteristics when combined with
antibiotics and fungicides to offer substantially greater
resistance to microbial growth and applications in nanomedicine
ranging from topical ointments and bandages for wound healing to
coated stents.
This book focuses on the application of microorganisms in various
aspects of life such as plant protection and improvement,
environmental remediation, and the improvement of plant & human
health. Various applications of microorganisms are examined in
depth, e.g. applied microbiology in agriculture, microbes in the
environment, the development of new microbial enzymes, and microbes
in human health. In turn, the book shares insights into the diverse
microorganisms that have been explored and exploited in the
development of various applications for agricultural improvements.
It also discusses the detection and exploitation of microorganisms
in the diagnosis of human diseases, which offer potential holistic
approaches to health. Presenting the latest information and
findings on the applications of microbial biotechnology, the book
offers a valuable resource.
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GIFT SET TWO (Holi, Ramadan & Eid, Vaisakhi) - Maya & Neel's India Adventure Series (Festival of Colors, Multicultural, Non-Religious, Culture, Bhangra, Lassi, Biracial Indian American Families, Sikh, Muslim, Hindu, Picture Book Gift, Dhol, Global Children) (Hardcover)
Ajanta Chakraborty, Vivek Kumar; Edited by Janelle Diller
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R1,259
Discovery Miles 12 590
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Ships in 10 - 15 working days
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This book explores the role of in silico deployment in connection
with modulation techniques for improving sustainability and
competitiveness in the agri-food sector; pharmacokinetics and
molecular docking studies of plant-derived natural compounds; and
their potential anti-neurodegenerative activity. It also
investigates biochemical pathways for bacterial metabolite
synthesis, fungal diversity and plant-fungi interaction in plant
diseases, methods for predicting disease-resistant candidate genes
in plants, and genes-to-metabolites and metabolites-to-genes
approaches for predicting biosynthetic pathways in microbes for
natural product discovery. The respective chapters elaborate on the
use of in situ methods to study biochemical pathways for bacterial
metabolite synthesis; tools for plant metabolites in defence; plant
secondary metabolites in defence; plant growth metabolites;
characterisation of plant metabolites; and identification of plant
derived metabolites in the context of plant defence. The book
offers an unprecedented resource, highlighting state-of-the-art
research work that will greatly benefit researchers and students
alike, not only in the field of agriculture but also in many
disciplines in the life sciences and plant sciences.
The book discusses ways to overcome the side effects of using
hydrocarbon-based products as energy sources. Hydrocarbons produce
raw crude oil waste of around 600,000 metric tons per annum, with a
range of uncertainty of 200,000 metric tons per year. The various
chapters in this book focus on approaches to reduce these wastes
through the application of potential microbes, in a process called
bioremediation. The book is a one-stop reference resource on the
methods, mechanisms and application of the bio-composites, in the
laboratory and field. Focusing on resolving a very pressing
environmental issue, it not only provides details of existing
challenges, but also offers deeper insights into the possibility of
solving problems using hydrocarbon bioremediation.
This book discusses the role of salt in current agricultural
approaches, including the low salt tolerance of agricultural crops
and trees, impact of saline soils, and salt-resistant plants.
Halophytes are extremely salt tolerant plants, which are able to
grow and survive under salt at concentrations as high as 5 g/l by
maintaining negative water potential. The salt-tolerant microbes
inhabiting the rhizospheres of halophytes may contribute to their
salt tolerance, and the rhizospheres of halophytic plants provide
an ideal opportunity for isolating various groups of salt-tolerant
microbes that could enhance the growth of different crops under
salinity stress. The book offers an overview of salt-tolerant
microbes' ability to increase plant tolerance to salt to facilitate
plant growth, the potential of the halophytes' rhizospheres as a
reservoir of beneficial salt-tolerant microbes, their future
application as bio-inoculants in agriculture and a valuable
resource for an alternative way of improving crop tolerance to
salinity and promoting saline soil-based agriculture. This special
collection of reviews highlights some of the recent advances in
applied aspects of plant (halophytes)-microbe interactions and
their contribution towards eco-friendly approaches saline
soil-based agriculture.
This book describes the vast variety of xenobiotics, such as
pesticides, antibiotics, antibiotic resistance genes, agrochemicals
and other pollutants, their interactions with the soil environment,
and the currently available strategies and techniques for soil
decontamination and bioremediation. Topics covered include:
transport mechanisms of pollutants along the Himalayas; use of
earthworms in biomonitoring; metagenomic strategies for assessing
contaminated sites; xenobiotics in the food chain; phyto-chemical
remediation; biodegradation by fungi; and the use of enzymes and
potential microbes in biotransformation. Accordingly, the book
offers a valuable guide for scientists in the fields of
environmental ecology, soil and food sciences, agriculture, and
applied microbiology.
With the ever-increasing usage of distance learning programs in
academia, the need for well-designed automated systems has become
vital to the success of open and distance education. Practical
solutions should be discovered and disseminated to meet the
software needs of instructors, academic researchers, and software
engineers.System and Technology Advancements in Distance Learning
meets this need, outlining computational methods, algorithms,
implemented prototype systems, and applications of open and
distance learning. It is targeted toward academic researchers and
engineers who work with distance learning programs and software
systems, as well as general participants of distance education.
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Let's Celebrate Vaisakhi! (Punjab's Spring Harvest Festival, Maya & Neel's India Adventure Series, Book 7) (Multicultural, Non-Religious, Indian Culture, Bhangra, Lassi, Biracial Indian American Families, Sikh, Picture Book Gift, Dhol, Global Children) (Hardcover)
Ajanta Chakraborty, Vivek Kumar
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R523
Discovery Miles 5 230
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Ships in 9 - 15 working days
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The book features original papers from the 2nd International
Conference on Smart IoT Systems: Innovations and Computing (SSIC
2019), presenting scientific work related to smart solution
concepts. It discusses computational collective intelligence, which
includes interactions between smart devices, smart environments and
smart interactions, as well as information technology support for
such areas. It also describes how to successfully approach various
government organizations for funding for business and the
humanitarian technology development projects. Thanks to the
high-quality content and the broad range of the topics covered, the
book appeals to researchers pursuing advanced studies.
This book describes many novel approaches of microbial
bioremediation including conventional and modern approaches,
metagenomics, biosurfactants and nano-based bioremediation. Also
presents up-to-date knowledge about biodegradation of solid and
liquid contaminants in the rhizospheric zone by plant
(rhizo)-microbiome interface. It also illustrates communication
pathways based on evolving methodologies, bioinformatic tools which
provides insights into the functional dynamics of bioremediation
process by the host-microbiome interface. The different chapters
explain the mechanism and outcomes during the process of
bioremediation. The book broadly depicts the following: Advances in
bioremediation through nanoremediation, rhizo-remediation,
bioremediation of different ecosystems like polluted waters,
industrial effluents, bioremediation of metal and organic
pollutants, toxic dyes etc. The book is very useful for researchers
and students in the fields of applied and environmental
microbiology. It is also meant for industry experts and
professionals working in the field of bioremediation and waste
management.
Nanotechnology is considered as one of the emerging fields of
science. It has applications in different biological and
technological fields which deal with the science of materials at
nanoscale (10-9). On the other hand, biotechnology is another field
that deals with contemporary challenges. Nanobiotechnology fills
the gap between these two fields. It merges physical, chemical, and
biological principles in a single realm. This combination opens up
new possibilities. At nanoscale dimensions, it creates precise
nanocrystals and nanoshells. Integrated nanomaterials are used with
modified surface layers for compatibility with living systems,
improved dissolution in water, or biorecognition leading to
enhanced end results in biotechnological systems. These
nanoparticles can also be hybridized with additional biocompatible
substances in order to amend their qualities to inculcate novel
utilities. Nanobiotechnology is used in bioconjugate chemistry by
coalescing up the functionality of non-organically obtained
molecular components and biological molecules in order to veil the
immunogenic moieties for targeted drug delivery, bioimaging and
biosensing. This book blends the science of biology, medicine,
bioinorganic chemistry, bioorganic chemistry, material and physical
sciences, biomedical engineering, electrical, mechanical, and
chemical science to present a comprehensive range of advancements.
The development of nano-based materials has made for a greater
understanding of their characterization, using techniques such as
transmission electron microscope, FTIR, X-ray diffraction, scanning
electron microscope EDX, and so on. This volume also highlights
uses in environmental remediation, environmental biosensors and
environmental protection. It also emphasizes the significance of
nanobiotechnology to a series of medical applications viz.,
diagnostics, and therapeutics stem cell technology, tissue
engineering enzyme engineering, drug development and delivery. In
addition this book also offers a distinctive understanding of
nanobiotechnology from researchers and educators and gives a
comprehensive facility for future developments and current
applications of nanobiotechnology.
Special functions are mathematical functions that have established
names and notations due to their importance in mathematical
analysis, functional analysis, geometry, physics, or other
applications. This short text gives clear descriptions and
explanations of the Gamma function, the Probability Integral and
its related functions, Spherical Harmonics Theory, The Bessel
function, Hermite polynomials and Laguerre polynomials. Each
chapter finishes with a description of how the function is most
commonly applied and a set of examples for the student to work
through.
This book presents a comprehensive overview of plant stresses
caused by salt, drought, extreme temperatures, oxygen and toxic
compounds, which are responsible for huge losses in crop yields. It
discusses the latest research on the impact of salinity and global
environment changes, and examines the advances in the
identification and characterization of the mechanisms that allow
plants to tolerate biotic and abiotic stresses. Further it presents
our current understanding of metabolic fluxes and the various
transporters that collectively open the possibility of applying in
vitro technology and genetic engineering to improve stress
tolerance. Exploring advanced methods that augment traditional
plant tissue culture and breeding techniques toward the development
of new crop varieties that can tolerate biotic and abiotic stresses
to achieve sustainable food production, this book is a valuable
resource for plant scientists and researchers.
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