Ultraviolet radiation underlies metabolic energy reprograming in Coffea arabica and Coffea canephora genotypes

Ultraviolet radiation underlies metabolic energy reprograming in Coffea arabica and Coffea canephora genotypes

•Actual UV radiation did not affect the photochemical efficiency and photosynthesis in Coffea sp.•Actual UV radiation increased water use efficiency, O2 evolution, and apparent quantum yield.•P-type H+-ATPase activity decreased while the H+-PPase ones increased under actual UV radiation.•Biomass acc...

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Bibliographic Details
Published in:Scientia horticulturae Vol. 295; p. 110881
Main Authors: Bernado, Wallace de Paula, Baroni, Danilo Força, Ruas, Katherine Fraga, Santos, Anne Reis, de Souza, Sávio Bastos, Passos, Letícia Cespom, Façanha, Arnoldo Rocha, Ramalho, José Cochicho, Campostrini, Eliemar, Rakocevic, Miroslava, Rodrigues, Weverton Pereira
Format: Journal Article
Language:English
Published: Elsevier B.V 15-03-2022
Subjects:
H+-PPase
H+−-ATPase
O2 evolution
SPAD
Stomatal conductance
Water use efficiency
PAR
E
PSII
LCP or Г
VPDair
DM
alpha or α
H+−-ATPase
V-PPase
PPFD
Amax
H+-PPase
UV
Anet
V-ATPase
O2 evolution
SPAD
Stomatal conductance
PSI
PPi
UVam
Water use efficiency
gs
iWUE
UVre
DAT
Fv/Fm
PI
Rdark
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Summary:•Actual UV radiation did not affect the photochemical efficiency and photosynthesis in Coffea sp.•Actual UV radiation increased water use efficiency, O2 evolution, and apparent quantum yield.•P-type H+-ATPase activity decreased while the H+-PPase ones increased under actual UV radiation.•Biomass accumulation decreased in C. canephora under actual UV radiation as compared to C. arabica.•Photomorphogenetic responses acclimation to actual UV radiation preserved the photosynthetic activity. Depletion of the stratospheric ozone layer enhances UV exposure to living organisms. We hypothesized that the adaptative physiological and bioenergetic responses of modern genotypes of Coffea arabica cv. Catuaí Amarelo IAC 62, and C. canephora (Conilon LB1) to actual UV levels would generate additional costs to the detriment of biomass formation and partitioning. Coffee plants were cultivated for six months in a mini greenhouse under either near ambient (UVam) or reduced (UVre) UV conditions, after which leaf gas exchanges, chlorophyll a fluorescence parameters and proton pump phosphohydrolase activities were analyzed. Growth under UVam did not affect the photochemical efficiency and net CO2 assimilation in both Coffea species, but reduced stomatal conductance (gs) and increased intrinsic water use efficiency (iWUE), maximum photosynthetic O2 evolution, and apparent quantum yield. Coffee plants under UVam showed decreased P-type H+-ATPase activity, whilst H+-PPase activity increased, preserving metabolic energy. Coffee biomass accumulation decreases under UVam were more pronounced in C. canephora, which generally invested more in the root system than in shoot biomass as compared to C. arabica. Reduced biomass in C. canephora under UVam susuggested restrained C-sequestration in plant biomass, which might be partly associated with gs reduction, along with a equilibrium between the ATP- and PPi-driven electrochemical H+ gradients, providing a mechanism for energy buffering and cellular robustness. The stability of fluorescence parameters and net CO2 assimilation rate under UVam, reduced gs and increased iWUE, oxygen-evolving complex activity, and elevated SPAD values, supported photomorphogenetic responses acclimation to actual UV in two modern coffee genotypes, with detrimental impact on shoot biomass, especially in C. canephora. [Display omitted]
ISSN:0304-4238
1879-1018
DOI:10.1016/j.scienta.2022.110881