Leaf morphophysiology of a Neotropical mistletoe is shaped by seasonal patterns of host leaf phenology

Several mistletoe species are able to grow and reproduce on both deciduous and evergreen hosts, suggesting a degree of plasticity in their ability to cope with differences in intrinsic host functions. The aim of this study was to investigate the influence of host phenology on mistletoe water relatio...

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Bibliographic Details
Published in:Oecologia 2016-04, Vol.180 (4), p.1103-1112
Main Authors: Scalon, Marina Corrêa, Rossatto, Davi Rodrigo, Domingos, Fabricius Maia Chaves Bicalho, Franco, Augusto Cesar
Format: Article
Language:English
Subjects:
Adaptation, Physiological
Biomedical and Life Sciences
Byrsonima
Drought
Droughts
Dry season
Ecology
Gas exchange
Grassland
hosts
Hydrology/Water Resources
leaf water potential
Leaves
Life Sciences
Malpighiaceae - physiology
Melastomataceae - physiology
Miconia albicans
Mistletoe - anatomy & histology
Mistletoe - physiology
parasitism
Phenology
Phenotype
Photosynthesis
Photosynthesis - physiology
Physiological aspects
PHYSIOLOGICAL ECOLOGY - ORIGINAL RESEARCH
Plant Leaves - anatomy & histology
Plant Leaves - physiology
Plant Sciences
Plant Stomata - anatomy & histology
Plant Stomata - physiology
Plant Transpiration - physiology
Plasticity
Rainy season
Santalales
savannas
seasonal variation
Seasons
Stomata
Stomatal conductance
Trees - physiology
Tropical Climate
tropics
Water
Water loss
Water potential
Water relations
water stress
Water use
Water use efficiency
wet season
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Summary:Several mistletoe species are able to grow and reproduce on both deciduous and evergreen hosts, suggesting a degree of plasticity in their ability to cope with differences in intrinsic host functions. The aim of this study was to investigate the influence of host phenology on mistletoe water relations and leaf gas exchange. Mistletoe Passovia ovata parasitizing evergreen (Miconia albicans) hosts and P. ovata parasitizing deciduous (Byrsonima verbascifolia) hosts were sampled in a Neotropical savanna. Photosynthetic parameters, diurnal cycles of stomatal conductance, pre-dawn and midday leaf water potential, and stomatal anatomical traits were measured during the peak of the dry and wet seasons, respectively. P. ovata showed distinct water-use strategies that were dependent on host phenology. For P. ovata parasitizing the deciduous host, water use efficiency (WUE; ratio of photosynthetic rate to transpirational water loss) was 2-fold lower in the dry season than in the wet season; in contrast, WUE was maintained at the same level during the wet and dry seasons in P. ovata parasitizing the evergreen host. Generally, mistletoe and host diurnal cycles of stomatal conductance were linked, although there were clear differences in leaf water potential, with mistletoe showing anisohydric behaviour and the host showing isohydric behaviour. Compared to mistletoes attached to evergreen hosts, those parasitizing deciduous hosts had a 1.4-fold lower stomatal density and 1.2-fold wider stomata on both leaf surfaces, suggesting that the latter suffered less intense drought stress. This is the first study to show morphophysiological differences in the same mistletoe species parasitizing hosts of different phenological groups. Our results provide evidence that phenotypical plasticity (anatomical and physiological) might be essential to favour the use of a greater range of hosts.
ISSN:0029-8549
1432-1939
DOI:10.1007/s00442-015-3519-8