This paper analyses relationships between relative growth rate (), seed mass, biomass allocation, photosynthetic rate and other plant traits as well as habitat factors (rainfall and altitude) in 20 wild species of Aegilops L. and one closely related species of Amblyopyrum (Jaub. & Spach) Eig., which differ in ploidy level (diploid, tetraploid and hexaploid). The plants were grown hydroponically for 20 d in a growth chamber. The relationships between parameters were calculated either using the phylogenetic information (phylogenetically independent contrasts, PIC) or without using the phylogenetic information (trait values of taxa, TIP). The results using the two approaches were very similar, but there were a few exceptions in which the results were different (e.g. vs. seed mass). Specific leaf area () was positively correlated with leaf area ratio () and negatively correlated with net assimilation rate (), which together resulted in the absence of a correlation between and . Leaf photosynthetic rates (expressed on a mass or area basis) showed no correlation with . was positively correlated with the stem mass ratio and negatively with root mass ratio. Species with a lower d. wt percentage have a higher . Aegilops species from locations with higher annual rainfall invested less biomass in roots and more in shoots (leaves and stems) and had a higher . Diploid species had a lower seed mass and initial mass than the hybrids (tetraploid and hexaploid species), but there was no correlation of with ploidy level. Polyploid species, which have higher seed mass, occur at a higher altitude than diploid species. Our results show that variation in in Aegilops and Amblyopyrum spp. is associated mainly with variation in biomass allocation (proportion of biomass in stems and roots) and d. wt percentage, and not with variation in , leaf photosynthetic rates or seed mass.
Extensive research efforts are devoted to understand fine root trait variation and to confirm the existence of a belowground root economics spectrum (RES) from acquisitive to conservative root strategies that is analogous to the leaf economics spectrum (LES). The economics spectrum implies a trade-off between maximizing resource acquisition and productivity or maximizing resource conservation and longevity; however, this theoretical framework still remains controversial for roots. We compiled a database of 320 Mediterranean woody and herbaceous species to critically assess if the classic economics spectrum theory can be broadly extended to roots. Fine roots displayed a wide diversity of forms and properties in Mediterranean vegetation, resulting in a multidimensional trait space. The main trend of variation in this multidimensional root space is analogous to the main axis of LES, while the second trend of variation is partially determined by an anatomical trade-off between tissue density and diameter. Specific root area (SRA) is the main trait explaining species distribution along the RES, regardless of the selected traits. We advocate for the need to unify and standardize the criteria and approaches used within the economics framework between leaves and roots, for the sake of theoretical consistency.
La luz y el agua son dos de los principales factores que regulan el crecimiento y la supervivencia de las plantas leñosas mediterráneas. El objetivo de este estudio es conocer el nivel de respuesta plástica de plántulas de cuatro especies de Quercus a tratamientos de sombra y sequía. Además queremos evaluar qué variables son más plásticas a uno u otro factor, y probar la hipótesis de que los rasgos fisiológicos son más plásticos que los rasgos estructurales. Se cultivaron en condiciones controladas plántulas de Quercus ilex subsp. ballota, Q. suber, Q. pyrenaica y Q. canariensis en tres tratamientos de luz (100, 27 y 3 % de luz incidente) y con agua abundante. A partir de mediados de primavera, a la mitad de las plántulas se les suprimió el agua, de forma que recibieron dos tratamientos de agua (riego versus no riego) dentro de cada tratamiento de luz. Se analizaron distintos rasgos fisiológicos como la tasa de fotosíntesis y respiración, el punto de compensación y de saturación a la luz, la conductancia estomática, la eficiencia en el uso del agua y de nitrógeno y la eficiencia fotosintética a la luz. También se estudiaron distintos rasgos morfológicos o estructurales, como el área foliar, el área específica foliar, las concentraciones foliares de N y C, y un índice de clorofila. En general, la respuesta plástica de las variables estructurales al factor agua fue muy baja, mientras que la respuesta de las fisiológicas fue relativamente alta. Con la luz, no se detectaron diferencias significativas en la respuesta plástica entre las variables estructurales y fisiológicas. En estas especies de Quercus mediterráneos, la mayor respuesta plástica a la luz podría estar ligada con una estrategia de tolerancia a la sombra, mientras que la baja respuesta plástica al agua (i.e., canalización) respondería a una estrategia de tolerancia a la sequía, indicando que la tolerancia a bajos niveles de recursos puede ser alcanzada mediante diferentes estrategias.
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