Assessment of mercury and lead contamination using the bivalve Anadara tuberculosa (Arcidae) in an estuary of the Colombian Pacific.

Buenaventura Bay is considered the main estuary on the Pacific coast of Colombia, because of port and industrial activities. Mining and agriculture are major sources of contamination in the estuary. This study used the bivalve Anadara tuberculosa to evaluate the presence of mercury and lead in the Dagua River estuary (Colombia), one of the main tributaries coming into the bay. Five samplings for sediments and six for tissues of A. tuberculosa were carried out between 2016 and 2017. Additionally, a series of bioassays were conducted to determine its ability to bioaccumulate metals. A mean mercury concentration of 0.57 ± 0.74 mg*kg-1 and lead concentration of 0.87 ± 0.68 mg*kg-1 in sediment were found. Bioassays allowed us to conclude that at low mercury exposure concentrations (0.25 mg*kg-1), lesions are generated in animal tissue, mainly in sexual cells. The high concentrations of mercury found in organisms exceed the maximum permitted concentration established in Colombia. In addition, the contamination factors for mercury and lead were considered very high. This research aims at contributing to the use of Anadara tuberculosa, as prospective bioindicator for pollution biomonitoring in mangrove coastal ecosystems.

Efecto de variables abióticas en la fauna hiporreica del río Dagua, Colombia / Effect of abiotic variables on the hyporheic fauna of Dagua River, Colombia

Introducción: La fauna de sedimentos del subsuelo, donde se da el intercambio entre aguas subterráneas y superficiales, llamada "fauna hiporreica", cumple funciones ecológicas importantes en los ríos; sin embargo, no ha sido estudiada suficientemente en Colombia. Objetivo: Identificar las relaciones entre los invertebrados hiporreicos y variables fisicoquímicas en el río Dagua, Colombia. Métodos: En tres giras a campo (entre octubre 2017 y diciembre 2018) en cinco estaciones de muestreo a lo largo de la cuenca del río, realizamos perforaciones implementando el método de Karaman-Chappuis (sedimento, agua e invertebrados), y registramos la granulometría y materia orgánica en los sedimentos; además, medimos nutrientes, iones y metales en el agua. Resultados: Las estaciones en la zona de cabecera tuvieron sustratos con sedimentos gruesos (grava y piedra), mayores niveles de oxígeno, y menor temperatura del agua. La riqueza y diversidad de especies fueron mayores en estaciones en la zona cabecera, donde predominaron Copepoda e Insecta, mientras que en sitios de cuenca baja predominaron Arachnida (Hydrachnidiae), Clitellata (Oligochaeta) y Nematoda. Conclusiones: La distribución y abundancia de la fauna hiporreica fueron principalmente influenciadas por cambios en la granulometría del sustrato hiporreico y sus contenidos de materia orgánica.

Introduction: The fauna from the subsurface sediments where groundwaters and surface waters are exchanged, called "hyporheic fauna", fulfills important ecological functions in rivers, but has not been sufficiently studied in Colombia. Objective: To identify relationships between hyporheic invertebrates and physicochemical variables in the Dagua River, Colombia. Methods: In three field trips (between October 2017 and December 2018) to five sites along the river basin, we drilled with the Karaman-Chappuis method (sediment, water, and invertebrates), and recorded granulometry and organic matter in sediments; and nutrients, ions, and metals in water. Results: The headwater stations had substrates with coarser sediments (gravel and stone), higher oxygen levels, and lower water temperature. Both richness and species diversity were higher at the headwater stations, dominated by Copepoda and Insecta, while the lower basin was dominated by Arachnida (Hydrachnidiae), Clitellata (Oligochaeta), and Nematoda. Conclusions: The distribution and abundance of the hyporheic fauna were principally influenced by changes in the granulometry of the hyporheic substrate and its content of organic matter.

Trophic structure of fish communities in mangrove systems subject to different levels of anthropogenic intervention, Tropical Eastern Pacific, Colombia.

Mangroves are important ecosystems of tropical and subtropical shorelines. Anthropogenic activity decreases their habitat quality, affecting structural and functional trophic features. We hypothesized that higher levels of anthropogenic intervention generate diversity loss and modify the trophic structure of tropical mangrove fish communities. We compared the taxonomic and isotopic (δ13C/δ15N) composition, abundance, trophic position, and isotopic niche of fish communities from three mangrove systems with different anthropogenic intervention levels in the Colombian Pacific. Non-parametric statistical tests and a Bayesian approach were used to analyze data. A total of 1254 specimens belonging to 23 families, 25 genera, and 30 species were identified, presenting higher abundance (821) in moderate anthropogenic intervention level mangrove (Moderate-AIL), with high dominance of one species (Lile stolifera). The low anthropogenic intervention level mangrove (Low-AIL) was the second in abundance (291) but exhibited a greater number of species (23), while the high anthropogenic intervention level mangrove (High-AIL) presented the least abundance (142) and species number (17). The isotopic composition ​​reveals that Moderate and High-AIL mangroves presented enriched 13C and 15 N compared to Low-AIL (~ 2 to 4 ‰). Mean trophic position (TP) of communities was slightly higher in the more intervened systems (~ 1 to 2 orders of magnitude), as well as in specific species (Centropomus spp.). Isotopic niche width (TA and SEAc) was greater in High-AIL (41.1 and 9.2), more than doubled compared to Moderate-AIL (33.0 and 4.1). In High-AIL isotopic niche width increased, indicating lesser availability of prey and basal resources. The results obtained in this study support the proposed hypothesis and, suggest that anthropogenic intervention modifies diversity and food webs dynamics, affecting the transfer of matter and energy from macrotidal tropical mangroves to coastal ecosystems. However, it is recommended to be careful concluding differences based exclusively on the anthropogenic intervention level, since it is widely documented that mangrove settings also influence the analyzed trophic parameters.

A functional analysis reveals extremely low redundancy in global mangrove invertebrate fauna.

Deforestation results in habitat fragmentation, decreasing diversity, and functional degradation. For mangroves, no data are available on the impact of deforestation on the diversity and functionality of the specialized invertebrate fauna, critical for their functioning. We compiled a global dataset of mangrove invertebrate fauna comprising 364 species from 16 locations, classified into 64 functional entities (FEs). For each location, we calculated taxonomic distinctness (Δ+), functional richness (FRi), functional redundancy (FRe), and functional vulnerability (FVu) to assess functional integrity. Δ+ and FRi were significantly related to air temperature but not to geomorphic characteristics, mirroring the global biodiversity anomaly of mangrove trees. Neither of those two indices was linked to forest area, but both sharply decreased in human-impacted mangroves. About 60% of the locations showed an average FRe < 2, indicating that most of the FEs comprised one species only. Notable exceptions were the Eastern Indian Ocean and west Pacific Ocean locations, but also in this region, 57% of the FEs had no redundancy, placing mangroves among the most vulnerable ecosystems on the planet. Our study shows that despite low redundancy, even small mangrove patches host truly multifunctional faunal assemblages, ultimately underpinning their services. However, our analyses also suggest that even a modest local loss of invertebrate diversity could have significant negative consequences for many mangroves and cascading effects for adjacent ecosystems. This pattern of faunal-mediated ecosystem functionality is crucial for assessing the vulnerability of mangrove forests to anthropogenic impact and provides an approach to planning their effective conservation and restoration.

The masquerade game: marine mimicry adaptation between egg-cowries and octocorals.

Background. Background matching, as a camouflage strategy, is one of the most outstanding examples of adaptation, where little error or mismatch means high vulnerability to predation. It is assumed that the interplay of natural selection and adaptation are the main evolutionary forces shaping the great diversity of phenotypes observed in mimicry; however, there may be other significant processes that intervene in the development of mimicry such as phenotypic plasticity. Based on observations of background mismatching during reproduction events of egg-cowries, sea snails of the family Ovulidae that mimic the octocoral where they inhabit, we wondered if they match the host species diversity. Using observations in the field and molecular systematics, we set out to establish whether the different egg-cowrie color/shape polymorphisms correspond to distinct lineages restricted to specific octocoral species. Methods. Collection and observations of egg-cowries and their octocoral hosts were done using SCUBA diving between 2009 and 2012 at two localities in the Tropical Eastern Pacific (TEP), Malpelo Island and Cabo Corrientes (Colombia). Detailed host preference observations were done bi-annually at Malpelo Island. We analyzed the DNA sequence of the mitochondrial genes COIand 16S rDNA, extensively used in phylogenetic and DNA barcoding studies, to assess the evolutionary relationship among different egg-cowrie colorations and morphologies. Results. No genetic divergence among egg-cowries associated to different species of the same octocoral genus was observed based on the two mitochondrial genes analyzed. For instance, all egg-cowrie individuals from the two sampled localities observed on 8 different Pacifigorgia-Eugorgia species showed negligible mitochondrial divergence yet large morphologic divergence, which suggests that morphologies belonging to at least two sea snail species, Simnia avena(=S. aequalis) and Simnialena rufa, can cross-fertilize. Discussion. Our study system comprised background-matching mimicry, of the masquerade type, between egg-cowries (Simnia/Simnialena) and octocorals (Pacifigorgia/Eugorgia/Leptogorgia). We observed mimicry mismatches related to fitness trade-offs, such as reproductive aggregations vs. vulnerability against predators. Despite the general assumption that coevolution of mimicry involves speciation, egg-cowries with different hosts and colorations comprise the same lineages. Consequently, we infer that there would be significant tradeoffs between mimicry and the pursuit of reproductive aggregations in egg-cowries. The findings of this study not only contribute to the understanding of the evolution of mimicry in egg-cowries, a poorly studied group of marine gastropods, but also to the development of a new biologically meaningful board game that could be implemented as a learning tool.

Calidad de las gguas superficiales de bahía málaga, pacífico Colombinno / Quality of Superficial Waters in Bahía Málaga Colombian Pacific

El trabajo consistió en un plan de monitoreo que contó con una red de diez estaciones distribuidas en bahía Málaga y fue realizado por muestreos trimestrales entre el 2005 y 2006. En esos muestreos se evaluó la calidad de las aguas superficiales mediante la medición de variables fisicoquímicas, microbiológicas, nutrientes y tóxicos orgánicos. La cercanía a la bahía de Buenaventura y la influencia de algunos esteros como Luisico, Valencia, Los Monos y La Sierpe favorece el aporte de materiales biogénicos (N, P, Si) que sostienen la productividad primaria de bahía Málaga en la que aún no se evidencian riesgos ambientales por procesos de eutrofización. Los resultados muestran un buen estado de la calidad de sus aguas y aportan elementos útiles para las autoridades locales, regionales y nacionales en procesos de conservación y planes de manejo de la bahía como área marina protegida.

A monitory plan in ten stations distributed in bahía Málaga between 2005 and 2006 was done to evaluate superficial water quality using physico-chemical, microbiological, nutrients and toxic organic variables. The streams and rivers in this zone (Luisico, Valencia, Los Monos y La Sierpe) bring biogenic materials (N, P, Si) that sustains primary productivity in the bay. This bay does not show any eutrophication process. The results constitute useful arguments for the local, regional and national authorities in the process of conservation and plans of managing of the bay as marine protected area.