Factors affecting nectar sugar composition in chiropterophilic plants

AbstractMost pollinators prefer the sugars present in the nectar they consume, so it has been hypothesized that they have molded nectar trait evolution. However, nectar-feeding bats do not exhibit preferences for the sugars present in their diet. We analyzed the role that biochemical and ecological factors could play in shaping the nectar traits of chiropterophilic plants. We studied nectar traits and flower production in 49 plant species. We evaluated the relationship between nectar concentration and sugar composition using phylogenetically independent contrasts and if nectar traits were related to flower production using a Manova. We found that 42 species produced high hexoses nectars, and 7 species produced sucrose rich nectars. Phylogenetically independent contrasts showed that nectar concentration was negatively related to glucose content, positively related to fructose content, and was not related to sucrose content. A negative relationship was found from glucose and fructose contents to sucrose content, and glucose content was negatively related to fructose content. Finally, we did not found any relationship between nectar traits and the plants’ flowering strategies. We conclude that bat physiology and the relative low evolutionary time of the interaction between plants and bats may determine the lack of pattern in the nectar characteristics of chiropterophilic plants

Extended WKB method, resonances and supersymmetric radial barriers

Semiclassical approximations are implemented in the calculation of position and width of low energy resonances for radial barriers. The numerical integrations are delimited by t/T<<8, with t the period of a classical particle in the barrier trap and T the resonance lifetime. These energies are used in the construction of `haired' short range potentials as the supersymmetric partners of a given radial barrier. The new potentials could be useful in the study of the transient phenomena which give rise to the Moshinsky's diffraction in time.Comment: 12 pages, 4 figures, 3 table

Efecto de la perturbación del bosque en la tasa de visitas de murciélagos polinizadores y sus consecuencias sobre el éxito reproductivo y sistema de apareamiento en árboles de la familia Bombacaceae.

La fragmentación y la perturbación del bosque pueden tener efectos deletéreos sobre el éxito reproductivo y el sistema de apareamiento de los árboles tropicales, además de modificar el compartimiento de sus polinizadores. Los objetivos de este capítulo son: (1) evaluar el efecto de la perturbación del bosque sobre la tasa de visita de los murciélagos a cuatro especies de árboles de Bombacaceas; (2) comparar el éxito reproductivo entre árboles en áreas perturbadas y en bosques continuos; (3) determinar las consecuencias de un cambio en la tasa de visitas de los polinizadores sobre el éxito reproductivo de los árboles; y (4) documentar cómo los patrones de visita de los polinizadores pueden afectar el sistema de apareamiento de las plantas que polinizan. Se estudiaron cuatro especies de árboles de la familia Bombacaceae en los bosques tropicales de Jalisco, México, y en las regiones de Guanacaste y la Península de Osa, en Costa Rica. Los murciélagos nectarívoros fueron los únicos polinizadores efectivos para estas cuatro especies. Las flores de Ceiba grandiflora en el bosque recibieron más visitas por parte de Glossophaga soricina; no se observaron diferencias en el número de visitas por parte de Leptonycteris curasoae y Musonycteris harrisoni solo visitó flores dentro del bosque. Ceiba aesculifolia presentó una mayor tasa de visitas en los sitios perturbados, tanto por G.. soricina como por L. curasoae. Ceiba pentandra, en Chamela, no presentó diferencias en la tasa de visitas de G. soricina entre áreas perturbadas y bosque continuo, pero L. curasoae visitó una mayor cantidad de flores en bosque continuo. En Guanacaste, C. pentandra recibió más visitas de Phyllostomus discolor que de G presentó una mayor producción de flores en fragmentos y no hubo diferencias en la proporción de frutos por flor (fruto/flor). Ceiba grandiflora no presentó diferencias en la producción de flores, pero la razón fruto/flor fue mayor en el bosque. Pachira quinata presentó un patrón similar a C. aesculifolia en cuanto a la producción de flores, pero la razón fruto/flor fue mayor en los árboles de bosque continuo. Estas cuatro especies de Bombacaceae son predominantemente autoincompatibles. Los niveles de exocruzamiento fueron independientes del tipo de hábitat para C. aesculifolia, C. grandiflora y C. pentandra en Guanacaste; sin embargo, los árboles C. pentandra, en la Península de Osa, mostraron un sistema de apareamiento mixto. Los efectos de la perturbación del bosque sobre la polinización por murciélagos, la reproducción de plantas y sus patrones de apareamiento varían según la especie de Bombacaceae y su historia de vida.Forest fragmentation and disturbance can have negative effects on the reproductive success and mating systems of tropical trees, in addition to modifying the behavior of the pollinators that pollinate them. The objectives of this study are: (1) to evaluate the effect of forest disturbance on bat pollinator activity for four bombacaceous species; (2) to compare reproductive success between trees found in disturbed habitats and continuous forest; (3) to determine the consequences of a change in bat pollinator activity on plant reproductive success; and (4) to document how bat pollinator activity may affect breeding systems in the plants they pollinate. Four species from the Bombacaceae family were studied in the tropical forests of Jalisco, Mexico, and in the areas of Guanacaste and Peninsula de Osa, in Costa Rica. Nectarivorous bats were the only effective pollinators observed for these four species. Flowers from Ceiba grandiflora in the forest received more visits from Glossophaga soricina. No differences were observed for Leptonycteris curasoae and Musonycteris harrisoni was only observed visiting flowers in the forest. Flowers from C. aesculifolia in fragmented habitats received more visits from both G. soricina and L. curasoae. For C. pentandra in Chamela no differences in visits were observed for G. soricina between disturbed areas and continuous forest, but L. curasoae visited more flowers in continuous forest. In Guanacaste, C. pentandra received more visits from Phyllostoumus discolor than G. soricina, and in Osa no bat visits were observed. Ceiba aesculifolia produced more flowers in disturbed areas but no differences were observed for fruit set. Ceiba grandiflora showed no differences in flower production but fruit set was greater in the forest. Similar to C. grandiflora, Pachira quinata showed no differences in flower production, however, greater fruit set was observed in continuous forest. These four bombacaceous species are predominantly self-incompatible. Out-crossing rates were independent of habitat for C. aesculifolia, C. grandiflora, and C. pentandra en Guanacaste; however, C. pentandra trees from the Osa Peninsula showed a mixed breeding system. Our results show that the effects of forest disturbance on bat pollination, plant reproductive success and breeding system varied depending on the bombacaceous species and its life history characteristics.UCR::Vicerrectoría de Docencia::Ciencias Básicas::Facultad de Ciencias::Escuela de Biologí

Entamoeba histolytica Up-Regulates MicroRNA-643 to Promote Apoptosis by Targeting XIAP in Human Epithelial Colon Cells

MicroRNAs (miRNAs) are small non-coding RNAs that function as negative regulators of gene expression. Recent evidences suggested that host cells miRNAs are involved in the progression of infectious diseases, but its role in amoebiasis remains largely unknown. Here, we reported an unexplored role for miRNAs of human epithelial colon cells during the apoptosis induced by Entamoeba histolytica. We demonstrated for the first time that SW-480 colon cells change their miRNAs profile in response to parasite exposure. Our data showed that virulent E. histolytica trophozoites induced apoptosis of SW-480 colon cells after 45 min interaction, which was associated to caspases-3 and -9 activation. Comprehensive profiling of 667 miRNAs using Taqman Low-Density Arrays showed that 6 and 15 miRNAs were significantly (FC &gt; 1.5; p &lt; 0.05) modulated in SW-480 cells after 45 and 75 min interaction with parasites, respectively. Remarkably, no significant regulation of the 6-miRNAs signature (miR-526b-5p, miR-150, miR-643, miR-615-5p, miR-525, and miR-409-3p) was found when SW-480 cells were exposed to non-virulent Entamoeba dispar. Moreover, we confirmed that miR-150, miR-643, miR-615-5p, and miR-525 exhibited similar regulation in SW-480 and Caco2 colon cells after 45 min interaction with trophozoites. Exhaustive bioinformatic analysis of the six-miRNAs signature revealed intricate miRNAs-mRNAs co-regulation networks in which the anti-apoptotic XIAP, API5, BCL2, and AKT1 genes were the major targets of the set of six-miRNAs. Of these, we focused in the study of functional relationships between miR-643, upregulated at 45 min interaction, and its predicted target X-linked inhibitor of apoptosis protein (XIAP). Interestingly, interplay of amoeba with SW-480 cells resulted in downregulation of XIAP consistent with apoptosis activation. More importantly, loss of function studies using antagomiRs showed that forced inhibition of miR-643 leads to restoration of XIAP levels and suppression of both apoptosis and caspases-3 and -9 activation. Congruently, mechanistic studies using luciferase reporter assays confirmed that miR-643 exerts a postranscripcional negative regulation of XIAP by targeting its 3′-UTR indicating that it's a downstream effector. In summary, we provide novel lines of evidence suggesting that early-branched eukaryote E. histolytica may promote apoptosis of human colon cells by modulating, in part, the host microRNome which highlight an unexpected role for miRNA-643/XIAP axis in the host cellular response to parasites infection

Phylogenetic classification of the world's tropical forests

Knowledge about the biogeographic affinities of the world’s tropical forests helps to better understand regional differences in forest structure, diversity, composition, and dynamics. Such understanding will enable anticipation of region-specific responses to global environmental change. Modern phylogenies, in combination with broad coverage of species inventory data, now allow for global biogeographic analyses that take species evolutionary distance into account. Here we present a classification of the world’s tropical forests based on their phylogenetic similarity. We identify five principal floristic regions and their floristic relationships: (i) Indo-Pacific, (ii) Subtropical, (iii) African, (iv) American, and (v) Dry forests. Our results do not support the traditional neo- versus paleotropical forest division but instead separate the combined American and African forests from their Indo-Pacific counterparts. We also find indications for the existence of a global dry forest region, with representatives in America, Africa, Madagascar, and India. Additionally, a northern-hemisphere Subtropical forest region was identified with representatives in Asia and America, providing support for a link between Asian and American northern-hemisphere forests.</p

Patch Size and Isolation Predict Plant Species Density in a Naturally Fragmented Forest

<div><p>Studies of the effects of patch size and isolation on plant species density have yielded contrasting results. However, much of the available evidence comes from relatively recent anthropogenic forest fragments which have not reached equilibrium between extinction and immigration. This is a critical issue because the theory clearly states that only when equilibrium has been reached can the number of species be accurately predicted by habitat size and isolation. Therefore, species density could be better predicted by patch size and isolation in an ecosystem that has been fragmented for a very long time. We tested whether patch area, isolation and other spatial variables explain variation among forest patches in plant species density in an ecosystem where the forest has been naturally fragmented for long periods of time on a geological scale. Our main predictions were that plant species density will be positively correlated with patch size, and negatively correlated with isolation (distance to the nearest patch, connectivity, and distance to the continuous forest). We surveyed the vascular flora (except lianas and epiphytes) of 19 forest patches using five belt transects (50×4 m each) per patch (area sampled per patch = 0.1 ha). As predicted, plant species density was positively associated (logarithmically) with patch size and negatively associated (linearly) with patch isolation (distance to the nearest patch). Other spatial variables such as patch elevation and perimeter, did not explain among-patch variability in plant species density. The power of patch area and isolation as predictors of plant species density was moderate (together they explain 43% of the variation), however, a larger sample size may improve the explanatory power of these variables. Patch size and isolation may be suitable predictors of long-term plant species density in terrestrial ecosystems that are naturally and anthropogenically fragmented.</p></div