Beeld op de omslag

Physiological and Molecular Characterization of Crop Resistance to Abiotic Stresses

Abiotic stress represents the main constraint for agriculture, affecting plant growth and productivity worldwide. Yield losses in agriculture will be potentiated in the future by global warming, increasing contamination, and reduced availability of fertile land. The challenge for agriculture of the...

Volledige beschrijving

Bewaard in:
Bibliografische gegevens
Andere auteurs: Boscaiu, Monica (Redacteur), Fita, Ana (Redacteur)
Formaat: Elektronisch Hoofdstuk
Taal:Engels
Gepubliceerd in: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute 2020
Onderwerpen:
Research & information: general
Biology, life sciences
silicon
strawberry
total antioxidants
drought
stress responses
arbuscular mycorrhizal fungus (AMF)
Rhizophagus clarus
flood
plants
hormonal homeostasis
physiological activity
drought tolerance
LEA
Tevang 1 maize
tobacco
xylem vessel
water stress
root anatomy
vegetable crops
stomatal conductance
canopy temperature
chlorophyll fluorescence
SPAD
common buckwheat
cotyledon
root
drought stress
transcriptome analysis
alfalfa
evaluation
growth
heat stress
physiological traits
sodium azide
okra
waterlogging stress
antioxidants
gene expression
salinity
sodium
potassium
ion homeostasis-transport determinants
CBL gene family
Provitamin A
maize
morphological
physiological
biochemical
β-carotene
Capsicum annuum L.
salt stress
salicylic acid
yeast
proline
pomegranate
transcriptome
tissue-specific
signaling transduction pathways
transcription factors
ultrastructure
osmotic stress
wheat
barley
summer maize
female panicle
Abiotic stress
climate change
combined drought and heat stress
genetic resources
landrace accessions
coated-urea fertilizer
humic acid
lignosulfonate
natural polymers
seaweed extract
aquaporin
Brassica rapa
gas exchange parameters
root hydraulic conductance
zinc
ALA
abiotic stress
chlorophyll
photosynthesis
antioxidant enzyme
tomato cultivars
salinity tolerance
antioxidant activity
lycopene
ascorbic acid
total polyphenols content
Capsicum annuum
root structure
root hairs
phosphorus use efficiency
P-starvation
macrominerals
nutrient
breeding
eggplant
wild relative
vegetative growth
ion homeostasis
osmolytes
oxidative stress
Phaseolus
landrace
seed
germination
genetic approach
sustainable agriculture
weeds
natural herbicides
secondary metabolites
postemergence
phytotoxicity
abiotic stress biomarkers
bean landraces
plant breeding
salt stress tolerance
water deficit
water stress tolerance
tea plant
cold stress
chitosan oligosaccharide
physiological response
plant growth
agriculture
traditions
pseudo-science
lunar phases
physics
biology
education
flooding
nutrient stress
ROS
Online toegang:DOAB: download the publication
DOAB: description of the publication
Tags: Voeg label toe
Geen labels, Wees de eerste die dit record labelt!
Omschrijving
Samenvatting:Abiotic stress represents the main constraint for agriculture, affecting plant growth and productivity worldwide. Yield losses in agriculture will be potentiated in the future by global warming, increasing contamination, and reduced availability of fertile land. The challenge for agriculture of the present and future is that of increasing the food supply for a continuously growing human population under environmental conditions that are deteriorating in many areas of the world. Minimizing the effects of diverse types of abiotic stresses represents a matter of general concern. Research on all topics related to abiotic stress tolerance, from understanding the stress response mechanisms of plants to developing cultivars and crops tolerant to stress, is a priority. This Special Issue is focused on the physiological and molecular characterization of crop resistance to abiotic stresses, including novel research, reviews, and opinion articles covering all aspects of the responses and mechanisms of plant tolerance to abiotic. Contributions on physiological, biochemical, and molecular studies of crop responses to abiotic stresses; the description and role of stress-responsive genes; marker-assisted screening of stress-tolerant genotypes; genetic engineering; and other biotechnological approaches to improve crop tolerance were considered.
Fysieke beschrijving:1 electronic resource (488 p.)
ISBN:books978-3-03943-459-6
9783039434589
9783039434596
Toegang:Open Access

Gelijkaardige items