Bioloxía funcional e ciencias da saúde
Saila
University of Sheffield
Sheffield, Reino UnidoUniversity of Sheffield-ko ikertzaileekin lankidetzan egindako argitalpenak (18)
2024
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C4 photosynthesis provided an immediate demographic advantage to populations of the grass Alloteropsis semialata
New Phytologist, Vol. 242, Núm. 2, pp. 774-785
2023
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Leaf anatomy explains the strength of C4 activity within the grass species Alloteropsis semialata
Plant Cell and Environment, Vol. 46, Núm. 8, pp. 2310-2322
2022
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Hybridization boosts dispersal of two contrasted ecotypes in a grass species
Proceedings of the Royal Society B: Biological Sciences, Vol. 289, Núm. 1967
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Upregulation of C4 characteristics does not consistently improve photosynthetic performance in intraspecific hybrids of a grass
Plant Cell and Environment, Vol. 45, Núm. 5, pp. 1398-1411
2021
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Enabling large-scale production of algal oil in continuous output mode
iScience, Vol. 24, Núm. 7
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Genetic and morphological divergence between Littorina fabalis ecotypes in Northern Europe
Journal of Evolutionary Biology, Vol. 34, Núm. 1, pp. 97-113
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Low dispersal and ploidy differences in a grass maintain photosynthetic diversity despite gene flow and habitat overlap
Molecular Ecology, Vol. 30, Núm. 9, pp. 2116-2130
2020
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Hybridization patterns between two marine snails, Littorina fabalis and L. obtusata
Ecology and Evolution, Vol. 10, Núm. 3, pp. 1158-1179
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Phylogeographic history of flat periwinkles, Littorina fabalis and L. obtusata
BMC Evolutionary Biology, Vol. 20, Núm. 1
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Transcriptomic resources for evolutionary studies in flat periwinkles and related species
Scientific Data
2019
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Effects of cryopreservation on viability and functional stability of an industrially relevant alga
Scientific Reports, Vol. 9, Núm. 1
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Population-Specific Selection on Standing Variation Generated by Lateral Gene Transfers in a Grass
Current Biology, Vol. 29, Núm. 22, pp. 3921-3927.e5
2018
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Effect of ammonium and high light intensity on the accumulation of lipids in Nannochloropsis oceanica (CCAP 849/10) and Phaeodactylum tricornutum (CCAP 1055/1)
Biotechnology for Biofuels, Vol. 11, Núm. 1
2017
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Physiological responses of coccolithophores to abrupt exposure of naturally low pH deep seawater
PLoS ONE, Vol. 12, Núm. 7
2016
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Coccolithophore calcification is independent of carbonate chemistry in the tropical ocean
Limnology and Oceanography, Vol. 61, Núm. 4, pp. 1345-1357
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Proteome response of Phaeodactylum tricornutum, during lipid accumulation induced by nitrogen depletion
Algal Research, Vol. 18, pp. 213-224
2014
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Distinct patterns in the size-scaling of abundance and metabolism in coastal and open-ocean phytoplankton communities
Marine Ecology Progress Series, Vol. 515, pp. 61-71
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Resource supply overrides temperature as a controlling factor of marine phytoplankton growth
PLoS ONE, Vol. 9, Núm. 6