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Research Project
SUSTROP: SUStainable management of TROPpical resources: functional genomic innovation into the service of local communities
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Publications
Genetic diversity and structure in two epiphytic orchids from the montane forests of southern Ecuador: The role of overcollection on Masdevallia rosea in comparison with the widespread Pleurothallis lilijae
Publication . Riofrío, María; Naranjo, Carlos; Mendoza, Alberto; Draper, David; Marques, Isabel
Ecuador has a high diversity of orchids, but little is known about levels of genetic diversity
for the great majority of species. Understanding how orchids might adapt to changes is crucial
as deforestation and fragmentation of forest ecosystems threaten the survival of many
epiphytic orchids that depend on other species, such as fungi and their host trees, for germination,
growth, and establishment. Overcollection and the illegal trade are also major concerns
for the survival of wild populations of orchids. Despite increasing awareness, effective
interventions are often limited by a lack of data concerning the impacts that overexploitation
might have. To fill this gap, we tested the effects of overcollection in the genetic diversity
and structure of Masdevallia rosea, a narrow distributed epiphytic orchid historically collected
in Ecuador, in comparison with the widely distributed Pleurothallis lilijae. Genotyping
based on AFLPs showed reduced levels of diversity in wild populations but most especially
in the overcollected, M. rosea. Overall, genetic admixture was high in P. lilijae segregating
populations by altitude levels while fewer genetic groups were found in M. rosea. Genetic
differentiation was low in both species. A spatial genetic structure was found in P. lilijae
depending on altitude levels, while no spatial genetic structure was found in M. rosea.
These results suggest different scenarios for the two species: while gene flow over long distance
is possible in P. lilijae, the same seems to be unlikely in M. rosea possibly due to the
low levels of individuals in the known populations. In situ and ex situ conservation strategies
should be applied to protect the genetic pool in these epiphytic orchid species, and to promote
the connectivity between wild populations. Adopting measures to reduce overexploitation
and to understand the impacts of harvesting in wild populations are necessary to
strengthen the legal trade of orchids.
Shade and Altitude Implications on the Physical and Chemical Attributes of Green Coffee Beans from Gorongosa Mountain, Mozambique
Publication . Cassamo, Crimildo T.; Mangueze, Adilson V.J.; Leitão, António E.; Pais, Isabel P.; Moreira, Rita; Campa, Claudine; Chiulele, Rogério; Reis, Fabricio O.; Marques, Isabel; Scotti-Campos, Paula; Lidon, Fernando C.; Partelli, Fabio L.; Ribeiro-Barros, Ana I.; Ramalho, José C.
Coffea arabica L. is as a tropical crop that can be grown under monocrop or agroforestry
(AFS) systems, usually at altitudes greater than 600 m, with suitable environmental conditions
to bean quality. This study aimed to assess the effect of altitude (650, 825, and 935 m) and light
conditions (deep shade—DS, and moderate shade—MS provided by native trees, and full Sun—FS)
on the physical and chemical attributes of green coffee beans produced in the Gorongosa Mountain.
Regardless of altitude, light conditions (mainly MS and FS) scarcely affected most of the studied
physical and chemical attributes. Among the few exceptions in physical attributes, bean mass tended
to lower values under FS in all three altitudes, whereas bean density increased under FS at 650 m.
As regards the chemical compound contents, sporadic changes were found. The rises in trigonelline
(MS and FS at 935 m), soluble sugars (FS at 935 m), and the decline in p-coumaric acid (MS and FS at
825 m), may indicate an improved sensory profile, but the rise in FQAs (FS at 825 m) could have a
negative impact. These results highlight a relevant uncertainty of the quality changes of the obtained
bean. Altitude (from 650 to 935 m) extended the fruit maturation period by four weeks, and altered
a larger number of bean attributes. Among physical traits, the average sieve (consistent tendency),
bean commercial homogeneity, mass, and density increased at 935 m, whereas the bean became less
yellowish and brighter at 825 and 935 m (b*, C* colour attributes), pointing to good bean trade quality,
usually as compared with beans from 650 m. Furthermore, at 935 m trigonelline and 5-CQA (MS
and FS) increased, whereas FQAs and diCQAs isomers declined (in all light conditions). Altogether,
these changes likely contributed to improve the sensory cup quality. Caffeine and p-coumaric acid
showed mostly inconsistent variations. Overall, light conditions (FS, MS, or DS) did not greatly and consistently altered bean physical and chemical attributes, whereas altitude (likely associated with
lower temperature, greater water availability (rainfall/fog), and extended maturation period) was a
major driver for bean changes and improved quality
Editorial: Women in conservation and restoration ecology 2022
Publication . Marques, Isabel; Hamilton, Diana J.; Barbeau, Myriam A.; Morrison, Clare; Chauvenet, Alienor L. M.
Overexpression of water-responsive genes promoted by elevated CO2 reduces ROS and enhances drought tolerance in coffea species
Publication . Marques, Isabel; Fernandes, Isabel; Paulo, Octávio S.; Batista, Dora; Lidon, Fernando C.; Partelli, Fábio; DaMatta, Fábio M.; Ribeiro-Barros, Ana I.; Ramalho, José C.
Drought is a major constraint to plant growth and productivity worldwide and will
aggravate as water availability becomes scarcer. Although elevated air [CO2] might mitigate some of
these effects in plants, the mechanisms underlying the involved responses are poorly understood
in woody economically important crops such as Coffea. This study analyzed transcriptome changes
in Coffea canephora cv. CL153 and C. arabica cv. Icatu exposed to moderate (MWD) or severe water
deficits (SWD) and grown under ambient (aCO2) or elevated (eCO2) air [CO2]. We found that
changes in expression levels and regulatory pathways were barely affected by MWD, while the SWD
condition led to a down-regulation of most differentially expressed genes (DEGs). eCO2 attenuated
the impacts of drought in the transcripts of both genotypes but mostly in Icatu, in agreement with
physiological and metabolic studies. A predominance of protective and reactive oxygen species
(ROS)-scavenging-related genes, directly or indirectly associated with ABA signaling pathways, was
found in Coffea responses, including genes involved in water deprivation and desiccation, such as
protein phosphatases in Icatu, and aspartic proteases and dehydrins in CL153, whose expression
was validated by qRT-PCR. The existence of a complex post-transcriptional regulatory mechanism
appears to occur in Coffea explaining some apparent discrepancies between transcriptomic, proteomic,
and physiological data in these genotypes.
Transcriptomic Analyses Reveal That Coffea arabica and Coffea canephora Have More Complex Responses under Combined Heat and Drought than under Individual Stressors
Publication . Marques, Isabel; Fernandes, Isabel; Paulo, Octávio S.; Rodrigues, Ana P.; Partelli, Fábio L.; DaMatta, Fábio M.; Ribeiro-Barros, Ana I.; Ramalho, José C.; Batista, Dora; Lidon, Fernando C.
Increasing exposure to unfavorable temperatures and water deficit imposes major con-
straints on most crops worldwide. Despite several studies regarding coffee responses to abiotic
stresses, transcriptome modulation due to simultaneous stresses remains poorly understood. This
study unravels transcriptomic responses under the combined action of drought and temperature in
leaves from the two most traded species: Coffea canephora cv. Conilon Clone 153 (CL153) and C. arabica
cv. Icatu. Substantial transcriptomic changes were found, especially in response to the combination
of stresses that cannot be explained by an additive effect. A large number of genes were involved in
stress responses, with photosynthesis and other physiologically related genes usually being nega-
tively affected. In both genotypes, genes encoding for protective proteins, such as dehydrins and heat
shock proteins, were positively regulated. Transcription factors (TFs), including MADS-box genes,
were down-regulated, although responses were genotype-dependent. In contrast to Icatu, only a few
drought- and heat-responsive DEGs were recorded in CL153, which also reacted more significantly in
terms of the number of DEGs and enriched GO terms, suggesting a high ability to cope with stresses.
This research provides novel insights into the molecular mechanisms underlying leaf Coffea responses
to drought and heat, revealing their influence on gene expression.
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Funders
Funding agency
Fundação para a Ciência e a Tecnologia
Funding programme
CEEC IND4ed
Funding Award Number
2021.01107.CEECIND/CP1689/CT0001