Genetic structure, phylogeography, and demography of Anadara tuberculosa (Bivalvia) from East Pacific as revealed by mtDNA: Implications to conservation.

Wild populations of the pustulose ark, Anadara tuberculosa (Bivalvia), an emblematic species of the East Pacific mangrove ecosystem declined in South American countries (Colombia, Ecuador, and Peru) mainly due to overharvesting and habitat loss or degradation. Understanding the genetic aspects of geographic variations and population structure of A. tuberculosa, currently unknown, appears as a priority to fishery authorities in order to elaborate integrated and collaborative conservation policies for fishery management, aquaculture, and stock enhancement programs. We used mtDNA sequence data to investigate haplotype diversity, genetic structure, and demography of A. tuberculosa. Results indicate genetic homogeneity of populations distributed north and south of the equator, respectively. However, statistically significant differentiation emerged between northern and southern populations with pairwise ф ST values ranging between 0.036 and 0.092. The oceanic current system acting in the area (Panama Current and Humboldt Current) might play a role in limiting the larval dispersal of the species, still poorly understood. Demography reconstruction supported recent population expansion, possibly started after last glacial maximum. Our results would suggest separate and independent management of populations north and south of the equator.

Respuesta fisiológica y molecular de Anadara tuberculosa (Arcoida: Arcidae) al estrés de salinidad / Physiological and molecular response of Anadara tuberculosa (Arcoida: Arcidae) to salinity stress

Resumen: La concha negra Anadara tuberculosa es una especie emblemática del ecosistema manglar que está actualmente en condición vulnerable. El desarrollo de su acuicultura requiere identificar biomarcadores moleculares, en particular asociados al estrés por salinidad en mira al inicio de programas de mejoramiento genético. Se recolectaron ejemplares de Anadara tuberculosa del manglar colindante a la Bahía de Puerto Pizarro (Tumbes, Perú) entre enero 2015 y febrero 2016. Estos individuos fueron sometidos a condiciones de estrés hipo-osmótico (extremo: 5 y 10 ppt); (moderado: 15 y 25 ppt) y sin estrés (grupo control: 33 ppt) por 16 días después de haber sido separados en grupos de diez animales y por triplicado. La presencia de biomarcadores del estrés por salinidad fue evaluada a nivel genético con la detección por PCR de 19 genes reportados como actores claves de la osmorregulación en bivalvos como ostras y mejillones y a nivel proteomico con la secuenciación de péptidos expresados en tejidos de animales expuestos a diferentes salinidades por espectrometría de doble masa. Ninguno de los marcadores genéticos probados pudo ser amplificado por PCR lo que sugiere que A. tuberculosa presente diferencias genéticas significativas en comparación con otros moluscos. El análisis proteómico realizado por MALDI TOF/TOF a nivel de tejido branquial de A. tuberculosa permitió identificar 26 péptidos expresados de formas presenciales y diferenciales a las diferentes salinidades evaluadas, resaltando posibles marcadores como la HSP70 y una proteína transmembrana de transporte de cloruro que están relacionadas con la adaptación a la salinidad. Estas secuencias aminoacídicas permitirán diseñar iniciadores nucleotidicos específicos a A. tuberculosa para la puesta en marcha de futuras investigaciones en ecofisiología de este importante recurso.

Abstract: The pustulose ark A. tuberculosa is an emblematic species of mangrove ecosystem that is currently in a vulnerable condition. The development of its aquaculture, to begin with genetic breeding programs, requires the identification of molecular biomarkers, particularly those associated with salinity stress. With this purpose, specimens of A. tuberculosa were collected from the adjacent mangroves of Puerto Pizarro bay (Tumbes, Perú), from January 2015 to February 2016. Different assays (groups of ten animals in triplicate) were undertaken in separated periods of 16 days: hypo-osmotic stress (extreme: 5, 10 ppt); (Moderate: 15, 25 ppt) and no stress (control group: 33 ppt). The presence of salinity stress biomarkers was assessed at the genetic level throughout PCR detection of 19 genes reported to be key actors in osmoregulation, and at the proteomic level with the sequencing of peptides (tandem mass spectrometry MALDI TOF/TOF), expressed in ark tissues exposed to different salinities. None of the tested genetic markers could be amplified by PCR, suggesting that A. tuberculosa has significant genetic differences compared to other mollusks. Proteomic analysis by mass spectrometry on A. tuberculosa gill tissue, allowed to identify 26 peptides expressed in presential and differential forms at different salinities, highlighting possible markers such as HSP70 and trans-membrane chloride channel transportation protein, to be related with salinity adaptation. These amino acid sequences will allow the design of target specific primers for A. tuberculosa, to implement future research in ecophysiology of this important fishery resource. Rev. Biol. Trop. 65 (3): 1142-1151. Epub 2017 September 01.