about
Acclimation of leaf cohorts expanded under light and water stresses: an adaptive mechanism of Eucryphia cordifolia to face changes in climatic conditions?Tocochromanols in wood: a potential new tool for dendrometabolomics.Two Hymenophyllaceae species from contrasting natural environments exhibit a homoiochlorophyllous strategy in response to desiccation stress.Native plant communities in an abandoned Pb-Zn mining area of northern Spain: implications for phytoremediation and germplasm preservation.Physical factors driving intertidal macroalgae distribution: physiological stress of a dominant fucoid at its southern limit.Opening Pandora's box: cause and impact of errors on plant pigment studies.Side-effects of domestication: cultivated legume seeds contain similar tocopherols and fatty acids but less carotenoids than their wild counterparts.Ecophysiological roles of abaxial anthocyanins in a perennial understorey herb from temperate deciduous forests.Leaf functional plasticity decreases the water consumption without further consequences for carbon uptake in Quercus coccifera L. under Mediterranean conditions.Thermal energy dissipation and xanthophyll cycles beyond the Arabidopsis model.Activation of photoprotective winter photoinhibition in plants from different environments: a literature compilation and meta-analysis.Autofluorescence: Biological functions and technical applications.Photoprotective Strategies of Mediterranean Plants in Relation to Morphological Traits and Natural Environmental Pressure: A Meta-Analytical Approach.Tree size and light availability increase photochemical instead of non-photochemical capacities of Nothofagus nitida trees growing in an evergreen temperate rain forest.Photosynthetic responses of trees in high-elevation forests: comparing evergreen species along an elevation gradient in the Central Andes.Internal and external factors affecting photosynthetic pigment composition in plants: a meta-analytical approach.Endogenous circadian rhythms in pigment composition induce changes in photochemical efficiency in plant canopies.Physiology of the seasonal relationship between the photochemical reflectance index and photosynthetic light use efficiency.Unraveling the Photoprotective Response of Lichenized and Free-Living Green Algae (Trebouxiophyceae, Chlorophyta) to Photochilling Stress.Evidence for the absence of enzymatic reactions in the glassy state. A case study of xanthophyll cycle pigments in the desiccation-tolerant moss Syntrichia ruralis.Seed Carotenoid and Tocochromanol Composition of Wild Fabaceae Species Is Shaped by Phylogeny and Ecological Factors.High irradiance induces photoprotective mechanisms and a positive effect on NH4+ stress in Pisum sativum L.Differences in EDTA-assisted metal phytoextraction between metallicolous and non-metallicolous accessions of Rumex acetosa L.Effectiveness of arbuscular mycorrhizal fungi (AMF) for inducing the accumulation of major carotenoids, chlorophylls and tocopherol in green and red leaf lettuces.Diversity of winter photoinhibitory responses: a case study in co-occurring lichens, mosses, herbs and woody plants from subalpine environments.Does plant colour matter? Wax accumulation as an indicator of decline in Juniperus thurifera.Synthesis of low molecular weight thiols in response to Cd exposure in Thlaspi caerulescens.On the recalcitrant use of Arnon's method for chlorophyll determination.Emissions of carotenoid cleavage products upon heat shock and mechanical wounding from a foliose lichen.First evidence of freezing tolerance in a resurrection plant: insights into molecular mobility and zeaxanthin synthesis in the dark.Ageing and irradiance enhance vitamin E content in green edible tissues from crop plants.Dehydration-mediated activation of the xanthophyll cycle in darkness: is it related to desiccation tolerance?Phytoextraction potential of two Rumex acetosa L. accessions collected from metalliferous and non-metalliferous sites: effect of fertilization.New insights on glyphosate mode of action in nodular metabolism: Role of shikimate accumulation.Acclimation of antioxidant pools to the light environment in a natural forest canopyCan Parietin Transfer Energy Radiatively to Photosynthetic Pigments?Differential responses of three fungal species to environmental factors and their role in the mycorrhization of Pinus radiata D. DonBorn to revive: molecular and physiological mechanisms of double tolerance in a paleotropical and resurrection plantModified Atmosphere Packaging and Dark/Light Refrigerated Storage in Green Leafy Vegetables Have an Impact on Nutritional ValueLife after Harvest: Circadian Regulation in Photosynthetic Pigments of Rocket Leaves during Supermarket Storage Affects the Nutritional Quality
P50
Q30869944-01B2EDC3-1BE9-4B11-98AC-75066ED73AC4Q30872295-7C075BBB-7CC5-45F5-B566-0FE3F877342FQ31034602-A604292C-E410-4A8C-A144-E641186EBBBAQ33906976-0063AF13-8988-40B1-8A09-E7B7D9148923Q34242833-B890C2A1-0B35-4603-8C97-9B2122A90E14Q35170326-C69A6343-7F67-471A-B6C7-B0B4FF196EB4Q35531147-1E2F2E3A-78F0-4BA2-8D09-4BD52F95FEDEQ35785046-ADA1E46A-9779-4D3A-BDE7-8D889CE0A9ABQ36948858-4C3E8F77-F579-4D90-9691-A6092C9FA251Q38024693-8C48EA53-AA24-48BF-83FF-E00E3CB9120DQ38334567-F29ECD9A-06A4-4EC9-BBB9-6F702CC6FED1Q38508298-D90C89FE-70A6-455A-B3EA-F3FBF597DDB5Q38663165-73F13F85-40D1-4189-B14A-22E5DC0ACD9CQ38952863-4CA7E68C-0FB8-4F3D-B20B-8E6E751B28F7Q39017576-21801621-6504-4B7F-9EAB-8FEB6D37A1D8Q39095488-4643A7A3-7933-4E27-A18A-44EF34EAD6FCQ39140438-CEF652F2-AB30-41B5-8679-B35F379B82D8Q39364274-840967C8-755B-46D1-B3BA-B26857D5E49AQ40971517-ECAE237C-165A-446C-8600-49DFBDF99CBAQ41401673-64B414A6-0561-43D2-85CF-5E9B5303BB8FQ41538882-DE5CEDAB-D610-4D69-AD32-A1103DE37C83Q43077835-F5205DB1-8DC0-44A4-8F39-E413A2561A8BQ43207992-B219C424-E7E2-4294-9B89-1F3290A9C55EQ43648455-D31D6E06-741B-4F1B-8D92-7E88326B410EQ46418258-27084FDD-953B-47AD-90D3-24E7BB5B2007Q46924434-BB4402B0-F342-487E-BA1C-180451616D3DQ47314948-B7C0D15B-927A-4204-8B58-A8D6FFBAD60CQ48203606-6AD43578-3BB8-40EB-91CE-873A84C4F2EAQ49421710-F994B5C5-C1CB-44F3-8336-D22B70607820Q49970136-2DF89C6C-6255-42AA-BC84-0A3C6A427E26Q50548833-FD6DDFB9-2869-49D9-826E-F01A680A197BQ51599565-B4676B87-0E96-4A00-AE04-ABBCAC1D6365Q51676256-C6EF174E-A651-4A74-A499-BEC25224EBC9Q51729925-62621544-31D3-47C2-B28D-E07183AFE0CFQ57051548-EC8BB3D1-5AC8-4B27-8899-CC1048C3D651Q64898698-E67AC9B7-1F8C-4B0D-9A7F-A16A22A2F10CQ79088624-C48C9C55-125D-4739-8192-B7F46FE6B997Q89524686-456F173B-AFEB-471F-AE35-F17E69A3A890Q90897578-B7C1E97C-2BA3-4F63-A126-0A0955B9FA7AQ91658256-118FAB51-EAA3-4311-A1B9-6E42746DB3DE
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Jose Ignacio García-Plazaola
@ast
Jose Ignacio García-Plazaola
@en
Jose Ignacio García-Plazaola
@es
Jose Ignacio García-Plazaola
@nl
Jose Ignacio García-Plazaola
@sl
type
label
Jose Ignacio García-Plazaola
@ast
Jose Ignacio García-Plazaola
@en
Jose Ignacio García-Plazaola
@es
Jose Ignacio García-Plazaola
@nl
Jose Ignacio García-Plazaola
@sl
prefLabel
Jose Ignacio García-Plazaola
@ast
Jose Ignacio García-Plazaola
@en
Jose Ignacio García-Plazaola
@es
Jose Ignacio García-Plazaola
@nl
Jose Ignacio García-Plazaola
@sl
P1053
B-8188-2009
P106
P21
P31
P3829
P496
0000-0001-6498-975X