UV-B reduction and excess: Management strategies regarding Coffea sp. crop

UV-B reduction and excess: Management strategies regarding Coffea sp. crop

•UV radiation triggers defense mechanisms, which represent a high metabolic cost for coffee plants.•UV trigger acclimation responses alter the coffee biomass allocation and cause reductions in total biomass.•The harmful effects of UV radiation can be mitigated through coffee protection strategies.•M...

Full description

Saved in:
Bibliographic Details
Published in:Scientia horticulturae Vol. 323; p. 112499
Main Authors: Bernado, Wallace de Paula, Santos, Anne Reis, Vale, Ellen Moura, Pireda, Saulo, Correia, Laísa Zanelato, deSouza, Guilherme Augusto Rodrigues, Abreu, Deivisson Pelegrino de, Carvalho, Letícia Karen Oliveira, Almeida, Felipe Astolpho, Baroni, Danilo Força, Partelli, Fábio Luiz, Bressan-Smith, Ricardo Henrique, Rakocevic, Miroslava, Ramalho, José Cochicho, Campostrini, Eliemar, Rodrigues, Weverton Pereira
Format: Journal Article
Language:English
Published: Elsevier B.V 01-01-2024
Subjects:
Acclimation
Coffea sp
Mitigation strategies
Oxidative stress
Ultraviolet radiation
Oxidative stress
cop1
Coffea sp
hy5
APX
cin
VINI_2
fs
PEPC
ETFE
QA
eva
QB
NMs
cat
SPS
UV
Anet
wrky36
CAF
PS I and II
SOD
UVR-8
DAG
RuBisCO
Acclimation
Mitigation strategies
SUS
Ultraviolet radiation
KAH
ROS
PI
TAG
PVC
ATP
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:•UV radiation triggers defense mechanisms, which represent a high metabolic cost for coffee plants.•UV trigger acclimation responses alter the coffee biomass allocation and cause reductions in total biomass.•The harmful effects of UV radiation can be mitigated through coffee protection strategies.•Mitigating the impact of UV radiation on the coffee plant can increase growth and yield. Coffee is the second most consumed beverage in the world, playing an important role in the global economy, but several studies have shown that this crop can suffer significant impacts due to abiotic stress caused by climate changes such as increased exposure to the solar UV radiation. This imposes detrimental impacts on plants (e.g., lipoperoxidation, protein and DNA degradation, photosynthesis, growth and development impairment), both through direct (due to its high energy) and indirect (e.g., reactive oxygen species production) ways. However, plants also respond positively in a variety of ways to UV radiation excess and exclusion, by increasing their environmental resistance, and promoting growth. Despite the economic importance of the coffee crop, there are few studies addressing the fact that current UV radiation levels might already impose growth and yield limitations on the crop. Here, we discuss, first, the aspects of UV radiation and climate changes; secondly, review the morphological, anatomical, physiological and biochemical impacts of UV radiation on plants, in particular coffee, where UV radiation can cause modification in biomass accumulation and allocation; third, review the effects of UV on gene expression, and, finally, suggest potential strategies to mitigate UV impact on this crop sustainability, altogether with possible future research directions. [Display omitted]
ISSN:0304-4238
1879-1018
DOI:10.1016/j.scienta.2023.112499