Book Volume 2
Preface
Page: ii-ii (1)
Author: Phetole Mangena and Sifau A. Adejumo
DOI: 10.2174/9789815165319123020002
Acknowledgement
Page: iii-iii (1)
Author: Phetole Mangena and Sifau A. Adejumo
DOI: 10.2174/9789815165319123020003
Biotic Stress and Breeding of Plants for Stress Resistance
Page: 1-13 (13)
Author: Phetole Mangena* and Sifau A. Adejumo
DOI: 10.2174/9789815165319123020005
PDF Price: $15
Abstract
Among the different environmental challenges that affect crop production,
biotic stress factors are more devastating. They reduce crop yield and pose serious
threats to food security. Legumes constitute a large number of crop varieties that are
seriously affected by different biotic stress factors. To enhance their growth in the face
of these different stressful factors and preserve their useful genomic and functional
growth properties, leguminous crops are subjected to continuous genetic manipulations
for stress resistance. Successful breeding of stress-tolerant varieties for cultivation
under different farming systems may result in reduced crop losses and production costs,
limited use of agrochemicals, and eventual yield increases. Crops that are resistant to
biotic stress also exhibit better growth and yield characteristics. As established several
decades ago, the revolution in genomic research led to the development of many
sophisticated and advanced crop improvement techniques that can be applied across a
whole range of leguminous crop species such as cowpea, faba bean, lentil, mungbean,
pea, soybean, etc. However, interest in genetic engineering, chemically-or-physicaly-based mutation breeding, marker-assisted selection, quantitative trait loci and
genome editing (CRISPR-Cas) have expanded research beyond biotic stress resistance.
These techniques play a key role in applications such as the manufacturing of
bioenergy, and crop engineering for the expression of valuable bioactive compounds
and recombinant proteins. This chapter briefly reviews the diversity of biotic stress
factors (bacteria, fungi, insects, parasitic nematodes and viruses) and possible ways in
which these stress factors can be managed and eradicated using various breeding
methods. The review shows that the biotechnological tools mentioned above provide
beneficial functions in pest management through genetic, physiological and
morphological improvements, especially when coupled with other farming practices.
Current Knowledge on Biotic Stresses affecting Legumes: Perspectives in Cowpea and Soybean
Page: 14-36 (23)
Author: Benjamin Joshua*
DOI: 10.2174/9789815165319123020006
PDF Price: $15
Abstract
Legumes are economically important crops for the achievement of food
security status in many countries in the tropical and subtropical regions of the world.
Among various environmental stresses, biotic constraints to the production of grain
legumes such as cowpea and soybean are becoming increasingly significant with the
recurring change in climatic patterns and diverse environmental alterations. The
economic impact of biotic factors such as disease-causing pathogens (fungi, bacteria,
viruses and nematodes), insect pests and parasitic weeds has become overwhelming.
These biotic stressors induce a wide range of damage symptoms which include
stunting, wilting of stems, defoliation, root rots and premature death of plants. Yield
losses due to the activities of biotic stress factors have been very significant. Hence, it
is imperative to be informed of the various biotic stressors that affect the growth and
yield potential of cowpeas and soybeans in various cropping systems. This review
seeks to highlight existing pests and diseases in cowpea and soybean and evaluate their
impact on the growth and productivity of these crops. It is hoped that the review will
further spur scientific research into how these biotic factors can be managed or even
manipulated to ensure agricultural sustainability, high economic returns, and global
food security.
Indexing for Bacterial, Fungal and Viral Pathogens in Legume Plants
Page: 37-63 (27)
Author: Phumzile Mkhize*, Josephine Malatji and Phetole Mangena
DOI: 10.2174/9789815165319123020007
PDF Price: $15
Abstract
Microorganisms found in plants exist as epiphytes or endophytes. Most
epiphytes remain on plant surfaces and the latter may be intracellular pathogens,
opportunistic and adapted microbial colonisers that originate from the surrounding
environment. The main purpose of agricultural practices is thus, to develop disease-free
varieties by propagating plants under controlled environmental conditions. Such
conditions should be optimal for plant production and reduce disease development. The
former requires strict certification schemes via several routes that include (i) indexing
with subsequent removal of infected or contaminated materials from the production
chain (ii) meristem and other tissue culture production systems and (iii) the use of
thermo or chemotherapy for phytosanitation. Other methods also require balancing and
proper adjustments in fertilizer usage and crop rotation. Therefore, this chapter reviews
the role of microbial pathogen indexing as a means of controlling bacterial, fungal, and
viral diseases that have a significant role to play in agriculture.
Viral Diseases of Legumes and Their Managements
Page: 64-82 (19)
Author: Pirtunia Nyadzani Mushadu*
DOI: 10.2174/9789815165319123020008
PDF Price: $15
Abstract
Legumes are very important food crops that are widely cultivated for their
high-quality proteins, oils, and vitamins throughout the world. In total, 168 viruses are
officially assigned by the International Committee on Taxonomy of Viruses. These
viruses belong to 39 genera in 16 families and have been reported to affect various
leguminous crops in different parts of the world. Among these viruses, TSWV (Tomato
Spotted Wilt Virus), CMV (Cucumber Mosaic Virus), TMV (Tobacco Mosaic Virus),
BYMV (Bean yellow mosaic virus), and BCMV (Bean Common Mosaic Virus) have
global economic importance. This review therefore focuses on the economic
importance of the abovementioned viruses influencing legume growth and
development by looking at aspects such as viral traits, transmission, viral biology, plant
host symptoms and the options used to control and manage some viruses such as the
CMV (Cucumber Mosaic Virus), TMV (Tobacco Mosaic Virus), BYMV (Bean yellow
mosaic virus), and BCMV (Bean Common Mosaic Virus).
Economic Importance and Control of Vertebrate Pests in Legumes
Page: 83-94 (12)
Author: Hafiz A. Badmus* and Abideen A. Alarape
DOI: 10.2174/9789815165319123020009
PDF Price: $15
Abstract
One of the constraints to crop production across the world is vertebrate
pests. They have been implicated as the most destructive pests which inflict both pre-harvest and post-harvest damages on agricultural production. Legumes are one of the
crops usually attacked by vertebrate pest species, though the degree of depredation
varies from one crop type to another. Meanwhile, there has been a misconception
among farmers, especially in some of the developing countries, that vertebrate pest
species belonging to the order Rodentia are very difficult to control. This is evident in
their crop cultivations whereby two rows are planted in addition to every eight rows of
crop, for rodent pest species that may come and inflict damage on the cultivated crop.
Some of the rodent pest species that cause economic damage to legumes on the field
include Arvicanthis niloticus, Xerus erythropus, Cricetomys gambianus, Rattus rattus,
R. norvegicus, and Mus sp., while avian pest species include Francolinus bicalcaratus,
and Ploceus cucullatus. There is a need to effectively manage these vertebrate pest
species. Some of the rodent pest management approaches include the use of sanitation
measures, exclusion of the vertebrate pest species, and modification of their habitat,
and Trap Barrier System, while some of the avian pest management approaches include
cage, nets or synthetic fibres, bird scarers, chemical repellents, sound-making devices,
chemical poisoning, and trapping.
Effect of Spider Diversity and Abundance in Legume Agroecosystems
Page: 95-110 (16)
Author: Mokgadi Asnath Modiba*, Sinorita Chauke and Yolette Belinda Rapelang Nyathi
DOI: 10.2174/9789815165319123020010
PDF Price: $15
Abstract
An agroecosystem refers to a complex system comprising a couple of
different interacting factors, involving species, ecological, and management processes.
This system contains lesser species diversity of both plants and animals than a natural
ecosystem. The variation in species of plants and insects is critically important to serve
as a complex food chain and web whose interactions function to stabilise this
ecological unit. However, among the groups of herbivores and predators found in
agroecosystems, spiders play a key role in most crop fields by preying on a variety of
pests. Besides this, the current pace of research on this subject shows that the role of
spiders in regulating pest species and serving as potential biological control agents has
been largely ignored. So far, information on agricultural spider communities, diversity
and their role as biological pesticides remain scant in various parts of the world with
the exception of countries such as the United States of America, Australia, and some
parts of the Middle East Asia. Thus, this chapter outlines the most relevant information
on the diversity, abundance and effect of arthropodous spiders on agroecosystems,
particularly those that are involved in the cultivation of legume crop species. The paper
also discusses current relevant threats to spiders, conservation measures, the threat of
species extinction, and the role that these arthropods play in agriculture, especially by
reducing the growth and productivity of species such as soybean (Glycine max L.) and
cowpea (Vigna unguiculata).
Role of Climate-Driven Factors on Bean Leaf Beetle, Corn Earworm and Stinkbug Populations, Control and their Effects on Soybean Growth and Productivity
Page: 111-129 (19)
Author: Arinao Mukatuni*
DOI: 10.2174/9789815165319123020011
PDF Price: $15
Abstract
Soybean is a crucial crop that is recognised globally for its high-value
protein, vitamins, carbohydrates, fibre, and oils. However, the production of soybeans
is frequently influenced by biotic stress factors such as bean leaf beetles (Cerotoma
trifurcate), grasshoppers (Schistocerca americana), corn earworms (Helicoverpa zea)
and stinkbugs (Halyomorpha halys). However, these insect pests were discovered to be
both beneficial and harmful to crop growth and productivity, particularly, in soybeans.
According to the literature, the rise in temperature causes an increase in insect pest
populations, thereby severely influencing the growth, and yield quality of many crops.
Less precipitation also contributes to drought stress, and plants undergoing water-deficit stress produce fewer secondary metabolites rendering them vulnerable to attacks
by these insects. Similar effects were also revealed due to the rise in atmospheric CO2
levels that led to the adverse weather effects that caused enhanced reproduction and
spread of pest insects. This chapter, therefore, explores the role of climate change-induced factors, such as temperature, precipitation patterns and rising atmospheric CO2
on insects’ distribution, and reproductive patterns, as well as their subsequent influence
on crop growth and productivity in soybeans. The review also briefly discusses the
chemical, biological and biotechnological approaches of insect pest control that have
been employed effectively to combat losses of crop production. Side effects, cost
effectiveness and the ability of new biotechnological methods to target specific pests
are also discussed in this chapter.
Sustainable Crop Nutrition for Ameliorating Biotic Stress in Grain Legumes and Ensuring Food Security
Page: 130-141 (12)
Author: Sifau A. Adejumo*
DOI: 10.2174/9789815165319123020012
PDF Price: $15
Abstract
Environmental stress generally causes considerable yield loss in leguminous
crop production. This stress could be biotic (Insect pests, disease pathogens, weeds,
vertebrate pests, etc.) or abiotic (Drought, heat, cold, salinity, flooding, heavy metal
contamination, etc.). Either biotic or abiotic stress, both are capable of causing total
yield loss. Unfortunately, crops are simultaneously exposed to these stress factors on
the field. The response and level of tolerance to both stress factors, however, depend on
the crop's genetic and nutritional status. The level of infection or infestation is
determined by the cropping system and soil nutrient status. The induction of defense
mechanisms by plants in response to pathogenic attack is dependent on environmental
conditions like plant nutrient status. It means that there is a complex signaling network
with crop nutrition that enables the plants to recognize and protect themselves against
pathogens and other environmental stresses. The disease severity could be reduced by
adequate crop nutrition due to host nutrient availability, plant composition of secondary
metabolites, and the effect on the plant defense mechanisms. Shortages in essential
nutrients on their own can predispose plants to attack by pests and pathogens.
Therefore, the only sustainable method for growing crops in the face of different
environmental stresses is good crop nutrition. A well-fed crop is more resistant to
environmental hazards than poorly-fed crop. Though leguminous crops can fix
atmospheric nitrogen themselves, the nutritional requirements for healthy crop
production are more than just one element. The ability to fix nitrogen, if combined with
appropriate crop nutrition will place the plant in a better position to withstand
environmental stresses. This chapter discusses some of the different nutrient elements
required by leguminous crops and their functions, crop nutrition abiotic stress
tolerance, and mechanisms of nutrient-induced resistance in leguminous crops.
Physiological Response of Legumes to Combined Environmental Stress Factors
Page: 142-160 (19)
Author: Ifedolapo O. Adebara*
DOI: 10.2174/9789815165319123020013
PDF Price: $15
Abstract
Legumes are considered the second most important source of food after
cereals, and their production can be affected by abiotic and biotic stresses. The
incidence of biotic and abiotic stress conditions resulting from climate change is
expected to increase in the future and may affect legume production drastically. Abiotic
stresses could result in escalated biotic stress occurrence. Although responses to abiotic
and biotic stress differ in most cases, combined abiotic and biotic stress responses
could be expressed in synergistic or opposing forms. In view of the impending
escalation in climate change, responses of legumes to stressful environments are
expected to vary among crops. However, collective information on combined biotic
and abiotic stress in legumes is not readily available. This paper seeks to gather
available information on the responses of legumes to biotic, abiotic, and combined
stress with a focus on physiological responses. This review will, therefore, help in
providing information and encourage further research into combined stress factors in
legumes
Subject Index
Page: 161-166 (6)
Author: Phetole Mangena and Sifau A. Adejumo
DOI: 10.2174/9789815165319123020014
Introduction
This reference provides comprehensive insights on the harm inflicted by pests and diseases on leguminous crops. Internationally acclaimed authors provide succinct reviews on breeding and impact of biotic stress factors such as insect pests, microbial pathogens, spiders, and vertebrate pests in legumes like soybean, cowpea, and common bean. The book also contains detailed technical analysis of methods such as the PCR-based detection, next generation sequencing / marker-assisted selections, low cost lethal-non-lethal vertebrate pest control and mechanisms of climate/nutrient induced resistance. The unique feature of this book is its focus on the optimization and development of environmentally friendly methods for pest and disease control in leguminous crops. Other features include structured sections for easy reading and a list of references for advanced readers. Key themes: Biotic Stress and Plant Resistance Biotic Stress in Legumes (Cowpea and Soybean) Diagnostic and Control Methods for Microbial Plant Pathogens Viral Diseases of Legumes and Management: Vertebrate Pests in Legumes and Economic Implications Spiders in Legume Agroecosystems Climate-Driven Factors and Insect Pests of Legumes Sustainable Crop Nutrition for Biotic Stress Alleviation in Legumes Physiological Responses in Legumes to Combined Stress Factors