Modular growth and functional heterophylly of the phreatophyte Ziziphus lotus: A trait-based study
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Modular growth and functional heterophylly of the phreatophyte Ziziphus lotus : A trait-based study. / Torres-García, M. Trinidad; Salinas-Bonillo, Maria Jacoba; Pacheco-Romero, Manuel et al.
in: Plant Species Biology, Jahrgang 36, Nr. 4, 10.2021, S. 554-566.Publikation: Beiträge in Zeitschriften › Zeitschriftenaufsätze › Forschung › begutachtet
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TY - JOUR
T1 - Modular growth and functional heterophylly of the phreatophyte Ziziphus lotus
T2 - A trait-based study
AU - Torres-García, M. Trinidad
AU - Salinas-Bonillo, Maria Jacoba
AU - Pacheco-Romero, Manuel
AU - Cabello, Javier
N1 - Funding Information: We thank Mar?a Rodr?guez, Ester Mora and Alba Rodr?guez, from the University of Almer?a (UAL), who assisted with laboratory and field work. We also thank Emilio Gonz?lez Miras, from the Environment and Water Agency of Andalusia, for his technical support in the field. We acknowledge the advice and assistance of Esmeralda Urea (UAL) in the use of the SEM for stomata visualization. This research was carried out in the framework of the LTSER Platform ?The Arid Iberian South East LTSER Platform - Spain (LTER_EU_ES_027)? and supported by the European project LIFE Adaptamed (LIFE14349 CCA/ES/000612), the Spanish Ecological Transition Ministry (through Biodiversity Foundation) project CO-ADAPTA (CA_CC_2016), and the RTI2018-102030-B-I00 project of the University of Almer?a (PPUENTE2020/001). The Spanish government supported M.T.T. with an FPU predoctoral fellowship (16/02214). Publisher Copyright: © 2021 The Authors. Plant Species Biology published by John Wiley & Sons Australia, Ltd on behalf of Society for the Study of Species Biology
PY - 2021/10
Y1 - 2021/10
N2 - The variation of plant functional traits, from the cell to the whole-plant level, is a central question in trait-based ecology with regard to understanding ecological strategies and adaptations that result from environmental drivers. Here, we analyzed whole-plant and leaf traits of the phreatophyte Ziziphus lotus (L.) Lam., a long-lived shrub that dominates one of the few terrestrial groundwater-dependent ecosystems (GDEs) in Mediterranean Basin drylands. We (a) assessed architectural traits and growth patterns, (b) analyzed leaf morpho-functional traits (specific leaf area [SLA] and stomata pore index [SPI]) and physiological traits (gas exchange rates), as well as their variations within individuals, and (c) evaluated temporal variations in modular growth (i.e., sequential iteration of structural units) between growing seasons and in leaf traits within seasons. Z. lotus' growth pattern was based on the repetition of modules composed of shoots (short and long) and branches (flowering and plagiotropic) that promoted a functional differentiation between vegetative and reproductive structures, respectively. We identified morpho-functionally distinct leaves (i.e., heterophylly) borne on different types of branches. Leaves on flowering branches had higher SLA and water use efficiency (WUEi), but lower SPI and transpiration rates than leaves on vegetative ones. We also observed trade-offs in the elongation of vegetative and flowering structures between growing seasons: the shorter the long shoots, the larger the flowering branches. The modular differentiation and heterophylly of Z. lotus might contribute to prioritizing the investment of resources of this phreatophyte, either for growth or reproduction, and could improve the efficiency in uptake and conservation of resources in drylands.
AB - The variation of plant functional traits, from the cell to the whole-plant level, is a central question in trait-based ecology with regard to understanding ecological strategies and adaptations that result from environmental drivers. Here, we analyzed whole-plant and leaf traits of the phreatophyte Ziziphus lotus (L.) Lam., a long-lived shrub that dominates one of the few terrestrial groundwater-dependent ecosystems (GDEs) in Mediterranean Basin drylands. We (a) assessed architectural traits and growth patterns, (b) analyzed leaf morpho-functional traits (specific leaf area [SLA] and stomata pore index [SPI]) and physiological traits (gas exchange rates), as well as their variations within individuals, and (c) evaluated temporal variations in modular growth (i.e., sequential iteration of structural units) between growing seasons and in leaf traits within seasons. Z. lotus' growth pattern was based on the repetition of modules composed of shoots (short and long) and branches (flowering and plagiotropic) that promoted a functional differentiation between vegetative and reproductive structures, respectively. We identified morpho-functionally distinct leaves (i.e., heterophylly) borne on different types of branches. Leaves on flowering branches had higher SLA and water use efficiency (WUEi), but lower SPI and transpiration rates than leaves on vegetative ones. We also observed trade-offs in the elongation of vegetative and flowering structures between growing seasons: the shorter the long shoots, the larger the flowering branches. The modular differentiation and heterophylly of Z. lotus might contribute to prioritizing the investment of resources of this phreatophyte, either for growth or reproduction, and could improve the efficiency in uptake and conservation of resources in drylands.
KW - functional traits
KW - heteroblasty
KW - modular unit
KW - plant architecture
KW - Rhamnaceae
KW - Environmental planning
UR - http://www.scopus.com/inward/record.url?scp=85107316658&partnerID=8YFLogxK
U2 - 10.1111/1442-1984.12343
DO - 10.1111/1442-1984.12343
M3 - Journal articles
AN - SCOPUS:85107316658
VL - 36
SP - 554
EP - 566
JO - Plant Species Biology
JF - Plant Species Biology
SN - 0913-557X
IS - 4
ER -