Weak crassulacean acid metabolism and other xerophytic adaptive traits in the genus Beaucarnea Lem. (Asparagaceae).

The genus Beaucarnea (Asparagaceae) has economic value as an ornamental plant but also has ecological importance. Nonetheless, habitat, physiological traits and growth parameters of this genus remain largely unknown. We characterized the environmental ranges of Beaucarnea inermis, B. gracilis and B. pliabilis; and screened for the presence of physiological adaptations to drought (biomass allocation, presence of crassulacean acid metabolism [CAM] and its effect on plant water use). We performed experiments in 3- and 5-year-old nursery-grown plants of the three species, measured dry mass accumulation in leaves/stems/roots and screened for CAM using gas exchange, titratable acidity and δ13 C. We performed a second experiment on the water and light use responses of B. pliabilis under drought treatment. We found that B. gracilis was limited to xerophytic scrubs (precipitation >400 mm yr-1 ), while B. pliabilis and B. inermis (precipitation >500 and 700 mm year-1 , respectively) inhabited dry forests. Beaucarnea gracilis had the lowest dry mass and allocation to leaves, while B. inermis showed the opposite pattern. Only B. pliabilis exhibited small but significant acid fluctuations, characterized as weak CAM, along with high proline content. Acid concentration contributed in 2.7% of the daily carbon during the wet season but represented most of the carbon in the dry season, under closed stomata and had an important contribution to osmolality. Thus, CAM is described for the first time in the genus Beaucarnea, but was only present in one of three species, warranting exploration of this metabolism in the remaining species of this genus.

INFLUENCIA DE LA HERBIVORÍA Y LA APERTURA DE CLAROS SOBRE EL CRECIMIENTO TOTAL DE Brosimum alicastrum (Moraceae) / Influence of herbivory and gap-openness on whole-plant growth of Brosimum alicastrum (Moraceae)

RESUMEN El crecimiento compensatorio y las defensas vegetales son respuestas para lidiar con la herbivoría y la luz. El estudio de la influencia de los componentes morfo-fisiológicos, de la asignación de biomasa y de la defensa vegetal podría arrojar información que ayude a entender estas respuestas. Se evaluaron los efectos de la herbivoría y la apertura de claros sobre el crecimiento, los componentes morfo-fisiológicos, la asignación de biomasa y las defensas químicas y físicas en plántulas de Brosimum alicastrum en una selva mediana subcaducifolia. Se utilizó un diseño anidado con sitios de sotobosque y claros (n = 3 en cada uno) y dentro de ellos plántulas sometidas a tres tratamientos de herbivoría: control (n = 10), simulada (n = 10) y natural (n = 10). Se registró a lo largo de seis meses la influencia de la herbivoría sobre el crecimiento (biomasa, área foliar, altura, diámetro y producción de hojas), la producción de fenoles y la dureza foliar. Se halló un crecimiento compensatorio (todas las variables de crecimiento) con la herbivoría natural, subcompensatorio (biomasa, altura y diámetro) con la simulada, y sobrecompensatorio (producción de hojas) con la herbivoría natural sólo en claros. Los componentes morfológicos como el cociente del área foliar (LAR) y el área foliar específica (SLA) fueron mayores bajo claros y el fisiológico, como la tasa de asimilación neta (NAR), en sotobosque. La proporción de biomasa en sotobosque fue mayor hacia hojas y tallos y en claros más alta hacia raíces. La herbivoría fue mayor en claros y los fenoles foliares en sotobosque. No se encontró una relación (compromiso) entre las defensas y el crecimiento, sólo una tendencia negativa con los fenoles bajo condiciones limitantes de recursos, como ocurre en el sotobosque.

ABSTRACT Compensatory plant growth and plant defense are responses to deal with herbivory and light availability. The research focused on compensatory growth responses explained through the influence of morphological and physiological components of plant growth, allocation mass, and plant defense could clarify such process. We studied the effects of herbivory and gap-openness on compensatory growth responses, morphological and physiological components, allocation mass, and chemical defenses in seedlings of Brosimum alicastrum in a subhumid tropical forest. We used a nested design with understory and gap-openness site (n = 3 each) within each replicated site seedling belong to three herbivory treatments (n = 10 each): control, simulated, and natural; and along six months we studied the influence of leaf herbivory on plant growth (mass, leaf area, height, diameter, and leaf production) and production of phenols and leaf toughness. We recorded compensatory growth responses (all plant growth variables) with natural herbivory, subcompensatory (mass, height, and diameter) with simulated and, overcompensatory (leaf production) with natural herbivory although only under gap-openness. We found a higher leaf area ratio (LAR) and specific leaf area (SLA) (both morphological components) under gap-openness and high values of net assimilation rate (NAR) on understory. The mass proportion was highest in leaves and stems on the understory and higher in roots under gap-openness. Leafherbivory was highest under gap-openness while the phenols of the leaves on understory. We did not find a relationship (trade-off) between defense with plant growth, but it was possible to underline a negative pattern of the leaf phenols under limiting resources environment such as understory.