Assessment of aquatic food web and trophic niche as a measurement of recovery function in restored mangroves in the Southern Gulf of Mexico.

Mangroves are coastal wetlands with high biodiversity and productivity, with great interaction with coastal environments. In the face of worldwide mangrove loss, restoration projects attempt to recover ecosystem composition and functioning over time. Our objective was to examine and compare the food webs in mangrove areas with different restoration times and in a reference mangrove in Términos Lagoon, Mexico. We estimated the trophic structure, identified the carbon resources that maintain aquatic consumers through the analysis of stable isotopes, and compared the trophic niche of the restored mangroves with the reference mangrove. We analyzed environmental variables, trophic structure, and contributions of resources during three seasons: rainy, dry, and "nortes". Environmental changes and food structure changed in response to regional seasons. Bayesian mixing models indicated that food webs varied seasonally as a response to the primary productivity developed at Términos Lagoon. As expected, the assimilation of C3 plants in the reference mangrove was highest, as a primary ("nortes" season) and secondary resource (dry and rainy seasons). The restored mangroves depended mainly on allochthonous resources (seagrass, epiphytes, and phytoplankton). The assimilation of these resources highlighted the importance of connectivity and the input of sources of carbon from nearby coastal environments. Trophic niche analysis showed that the area with longer restoration time was more similar to the reference mangrove, which is evidence of the importance and efficacy of the restoration process, as well as the restoration of the ecosystem function over time.

Comparative analysis of cranial morphology in Middle-American heroine cichlids (Actinopterygii: Cichliformes).

Heroine cichlids are characterized by high morphological diversity, mainly in structures related to the capture and processing of food. The existence of ecomorphological groups has been proposed based on feeding behavior, where it is common for some phylogenetically unrelated species to show evolutionary convergence. Using geometric morphometrics and comparative phylogenetic methods, the variation in cranial morphology was evaluated for 17 species of heroine cichlids representing 5 ecomorphs. Cranial ecomorphs were recovered and significant differences were determined. Morphological variation of the ecomorphs was mainly explained by two axes: (1) the position of the mouth determined by the shape of the bones of the oral jaw and (2) the height of the head, defined by the size and position of the supraoccipital crest and the distance to the interopercle-subopercle junction. Cranial variation among species was related to phylogeny. To better understand the evolution of cranial morphology, it is necessary to evaluate the morphofunctional relationship of other anatomical structures related to feeding, as well as to increase the number of study species in each ecomorph by including other lineages.

Genetic diversity and structure of one of the most endangered freshwater fish species in Mexico: Tlaloc hildebrandi (Miller, 1950) and recognition of its evolutionarily significant units.

The endangered Chiapas killifish Tlaloc hildebrandi is an endemic freshwater species that lives in four subbasins of the Grijalva and Usumacinta basins, and one of the most geographically restricted species of the Produndulidae family. The species was originally described as endemic to springs in the high limestone plateau in San Cristóbal de Las Casas in the Río Amarillo subbasin (upper Grijalva basin). However, it was recently recorded in the Jataté and Tzaconejá subbasins in the upper Usumacinta basin, thereby expanding its known distribution range. The discovery of these populations is relevant not only for the conservation of the species but also for a better understanding of its evolutionary history. Currently, the scarce populations of T. hildebrandi, found in only a few localities in the Grijalva and Usumacinta basins, are fragmented and living under unfavorable conditions. Here, we analyzed three mitochondrial (mt-atp8&6 and mt-nd2) and one nuclear (nuc-s7) marker in order to assess the genetic diversity and population structure of T. hildebrandi. We found that, in comparison with other endangered freshwater fish species from Mexico, T. hildebrandi showed a lower level of genetic diversity (mt-nd2: h = 0.469, π = 0.0009; mt-atp8&6: h = 0.398, π = 0.001; and nuc-S7: h = 0.433, π = 0.001). Moreover, the analyzed populations exhibited a strong genetic structure in accordance with their geographic distribution, and can be placed into three genetic clusters: (1) Amarillo plus Chenhaló in the upper Grijalva basin, (2) Jataté, and (3) Tzaconejá, both in the upper Usumacinta basin. On the basis of our results, we propose the recognition of at least three evolutionarily significant units (ESUs) for the species and the urgent implementation of ex situ and in situ conservation and management efforts that consider the genetic background of the species.

Diferencias osteológicas entre los subgéneros Profundulus y Tlaloc (Teleostei: Profundulidae) / Osteological differences between the subgenus Profundulus and Tlaloc (Teleostei: Profundulidae)

El género Profundulus es uno de los grupos de peces más antiguos, distribuidos al norte de América Central en México, Guatemala y Honduras. No obstante, son pocos los trabajos que se han realizado para conocer el número de especies que lo conforman y sus relaciones filogenéticas. Históricamente se reconoció que este taxón estaba conformado por dos grupos naturales, actualmente considerados como los subgéneros Profundulus y Tlaloc. Recientes investigaciones genéticas han revelado un alto grado de diferenciación entre ambos taxones y algunas de sus especies, lo cual probablemente este asociado a cambios morfológicos. De esta manera, se realizó la comparación osteológica entre seis especies de los subgéneros Profundulus y Tlaloc (Cyprinodontidae: Profundulidae). Se revisaron 17 huesos ubicados en el cráneo y la cintura pélvica, se encontraron diferencias cualitativas en el mesetmoides, vómer, lacrimal, premaxilar, articular, cuadrado, interopérculo y basipterigio. Los patrones de variación observados permiten diagnosticar ambos subgéneros, corroborando lo encontrado en estudios morfológicos y moleculares. Las evidencias permiten suponer que ambos taxones podrían ser reubicados como géneros, como previamente se había establecido.

The genus Profundulus is one of the oldest fish groups, distributed north of Central America in Mexico, Guatemala and Honduras. However, there are few studies that determine the number of species and their phylogenetic relationships. Historically it has been recognized that this taxon comprises two natural groups, defined as the subgenus Profundulus and Tlaloc. Recent genetic researches have revealed a high degree of differentiation between the two taxa and some species, probably associated with the morphological changes. In this way, we made the osteological comparison between six species of the subgenus Profundulus and Tlaloc (Cyprinodontidae: Profundulidae). We reviewed 17 bones located in the skull and pelvic girdle; qualitative differences were found in eight bones: the mesethmoid, vomer, lachrymal, premaxilla, articular, quadrate, interoperculum, and basipterygium. The variation patterns permit to diagnose both subgenus, corroborating the previous morphological and molecular studies. The evidence suggests that both taxa could be relocated as genus, such as previously was established.