Your search keyword '"Rocha-Olivares, A."' showing total 9 results

1. Size spectra, biomass, and trophic groups of free‐living marine nematodes along a water‐depth gradient in the northwestern Gulf of Mexico.

Author

de Jesús‐Navarrete, Alberto, Armenteros, Maickel, Espositos, Abel Vargas, and Rocha‐Olivares, Axayacatl

Subjects

NEMATODES, MARINE invertebrates, BIOMASS, WATER depth, OIL fields, NEMATOCIDES, BP Deepwater Horizon Explosion & Oil Spill, 2010

Abstract

Water depth can affect the size spectra (SS) and biomass of free‐living nematodes, but these relationships are largely unknown for the Gulf of Mexico (GoM). Here, we examined the SS and biomass of meiofaunal nematode assemblages at 27 sites along a water‐depth gradient from 44 to 3466 m in the Perdido belt, northwestern GoM. Nematodes were identified to species level, measured (length and width), and assigned to shape morphotypes and trophic groups. Nematode SS were defined by a median length of 951 μm (range: 223–4289 μm) and a median width of 33 μm (range: 12–109 μm). SS revealed a dominant long/slender morphotype (e.g., Paramicrolaimus sp., Filoncholaimus sp., and Ledovitia sp.), better adapted to the very fine sediments of the deep sea, whereas stout/short nematodes (mostly Desmoscolex sp., Greeffiella sp., and Quadricoma sp.) were less abundant. Water‐depth gradient significantly influenced mean individual (IB) and total biomasses likely because reduced availability of organic carbon with depth. The two deepest sites had particularly high mean IB suggesting local sources of organic carbon in the abyssal region related to the Perdido belt oil field. The most abundant trophic group was microbial feeder sucker (56%), followed by microbial feeder scraper (23%), and predator ingester (20%). The mean IB of predator nematodes was significantly larger than that of nematode preys. However, the logarithm of ratio IBpredator/IBprey was rather low (0.34) and in agreement with the empiric consumer‐resource body‐size relationship calculated for marine invertebrates. Our study provides novel insights about the structure of benthic nematode assemblages in the western Gulf of Mexico across a wide depth gradient. [ABSTRACT FROM AUTHOR]

Published

2022

2. Integrating eDNA metabarcoding and simultaneous underwater visual surveys to describe complex fish communities in a marine biodiversity hotspot.

Author

Valdivia‐Carrillo, Tania, Rocha‐Olivares, Axayácatl, Reyes‐Bonilla, Héctor, Domínguez‐Contreras, José Francisco, and Munguia‐Vega, Adrian

Subjects

*MARINE biodiversity, *GENETIC barcoding, *FISH communities, *FISHING villages, *FALSE positive error, *NUMBERS of species

Abstract

Marine biodiversity can be surveyed using underwater visual censuses and recently with eDNA metabarcoding. Although a promising tool, eDNA studies have shown contrasting results related to its detection scale and the number of species identified compared to other survey methods. Also, its accuracy relies on complete reference databases used for taxonomic assignment and, as other survey methods, species detection may show false‐negative and false‐positive errors. Here, we compared results from underwater visual censuses and simultaneous eDNA metabarcoding fish surveys in terms of observed species and community composition. We also assess the effect of a custom reference database in the taxonomic assignment, and evaluate occupancy, capture and detection probabilities, as well as error rates of eDNA survey data. We amplified a 12S rRNA fish barcode from 24 sampling sites in the gulf of California. More species were detected with eDNA metabarcoding than with UVC. Because each survey method largely detected different sets of species, the combined approach doubled the number of species registered. Both survey methods recovered a known biodiversity gradient and a biogeographic break, but eDNA captured diversity over a broader geographic and bathymetric scale. Furthermore, the use of a modest‐sized custom reference database significantly increased taxonomic assignment. In a subset of species, occupancy models revealed eDNA surveys provided similar or higher detection probabilities compared to UVC. The occupancy value of each species had a large influence on eDNA detectability, and in the false positive and negative error. Overall, these results highlight the potential of eDNA metabarcoding in complementing other established ecological methods for studies of marine fishes. [ABSTRACT FROM AUTHOR]

Published

2021

3. The effect of biogeographic and phylogeographic barriers on gene flow in the brown smoothhound shark, Mustelus henlei, in the northeastern Pacific.

Author

Chabot, Chris L., Espinoza, Mario, Mascareñas-Osorio, Ismael, and Rocha-Olivares, Axayácatl

Subjects

TRIAKIDAE, GENE flow, LIFE zones, PHYLOGEOGRAPHY, MICROSATELLITE repeats, FISHES

Abstract

We assessed the effects of the prominent biogeographic (Point Conception and the Peninsula of Baja California) and phylogeographic barriers (Los Angeles Region) of the northeastern Pacific on the population connectivity of the brown smoothhound shark, Mustelus henlei (Triakidae). Data from the mitochondrial control region and six nuclear microsatellite loci revealed significant population structure among three populations: northern (San Francisco), central (Santa Barbara, Santa Catalina, Punta Lobos, and San Felipe), and southern (Costa Rica). Patterns of long-term and contemporary migration were incongruent, with long-term migration being asymmetric and occurring in a north to south direction and a lack of significant contemporary migration observed between localities with the exception of Punta Lobos that contributed migrants to all localities within the central population. Our findings indicate that Point Conception may be restricting gene flow between the northern and central populations whereas barriers to gene flow within the central population would seem to be ineffective; additionally, a contemporary expansion of tropical M. henlei into subtropical and temperate waters may have been observed. [ABSTRACT FROM AUTHOR]

Published

2015

4. Testing the genetic predictions of a biogeographical model in a dominant endemic Eastern Pacific coral ( Porites panamensis) using a genetic seascape approach.

Author

Saavedra-Sotelo, Nancy C., Calderon-Aguilera, Luis E., Reyes-Bonilla, Héctor, Paz-García, David A., López-Pérez, Ramón A., Cupul-Magaña, Amilcar, Cruz-Barraza, José A., and Rocha-Olivares, Axayácatl

Published

2013

5. Metagenetic community analysis of microbial eukaryotes illuminates biogeographic patterns in deep-sea and shallow water sediments.

Author

BIK, HOLLY M., SUNG, WAY, DE LEY, PAUL, BALDWIN, JAMES G., SHARMA, JYOTSNA, ROCHA-OLIVARES, AXAYÁCATL, and THOMAS, W. KELLEY

Subjects

EUKARYOTES, BIOGEOGRAPHY, ANIMAL communities, ANIMAL classification, MARINE sediments, DEEP-sea ecology, WATER depth

Abstract

Microbial eukaryotes (nematodes, protists, fungi, etc., loosely referred to as meiofauna) are ubiquitous in marine sediments and probably play pivotal roles in maintaining ecosystem function. Although the deep-sea benthos represents one of the world's largest habitats, we lack a firm understanding of the biodiversity and community interactions amongst meiobenthic organisms in this ecosystem. Within this vast environment, key questions concerning the historical genetic structure of species remain a mystery, yet have profound implications for our understanding of global biodiversity and how we perceive and mitigate the impact of environmental change and anthropogenic disturbance. Using a metagenetic approach, we present an assessment of microbial eukaryote communities across depth (shallow water to abyssal) and ocean basins (deep-sea Pacific and Atlantic). Within the 12 sites examined, our results suggest that some taxa can maintain eurybathic ranges and cosmopolitan deep-sea distributions, but the majority of species appear to be regionally restricted. For Operationally Clustered Taxonomic Units (OCTUs) reporting wide distributions, there appears to be a taxonomic bias towards a small subset of taxa in most phyla; such bias may be driven by specific life history traits amongst these organisms. In addition, low genetic divergence between geographically disparate deep-sea sites suggests either a shorter coalescence time between deep-sea regions or slower rates of evolution across this vast oceanic ecosystem. While high-throughput studies allow for broad assessment of genetic patterns across microbial eukaryote communities, intragenomic variation in rRNA gene copies and the patchy coverage of reference databases currently present substantial challenges for robust taxonomic interpretations of eukaryotic data sets. [ABSTRACT FROM AUTHOR]

Published

2012

6. The panmixia paradigm of eastern Pacific olive ridley turtles revised: consequences for their conservation and evolutionary biology.

Author

López-Castro, M. C. and Rocha-Olivares, A.

Subjects

*OLIVE ridley turtle, *LEPIDOCHELYS, *CONSERVATION biology, *POPULATION genetics, *ANIMAL populations, *MOLECULAR ecology, *MOLECULAR biology

Abstract

Previous studies of the olive ridley Lepidochelys olivacea population structure in the tropical eastern Pacific have indicated the existence of a single panmictic population ranging from Costa Rica to Mexico. This information has been used to design specific management measures to conserve primary nesting beaches in Mexico. However, little is known about olive ridleys in the Baja California Peninsula, their northernmost reproductive limit, where recent observations have shown differences in nesting female behaviour and size of hatchlings relative to other continental rookeries. We used mtDNA control region sequences from 137 turtles from five continental and four peninsular nesting sites to determine whether such differences correspond to a genetic distinction of Baja California olive ridleys or to phenotypic plasticity associated with the extreme environmental nesting conditions of this region. We found that genetic diversity in peninsular turtles was significantly lower than in continental nesting colonies. Analysis of molecular variance revealed a significant population structure (ΦST = 0.048, P = 0.006) with the inclusion of peninsular samples. Our results: (i) suggest that the observed phenotypic variation may be associated with genetic differentiation and reproductive isolation; (ii) support the recent colonization of the eastern Pacific by Lepidochelys; (iii) reveal genetic signatures of historical expansion and colonization events; and (iv) significantly challenge the notion of a single genetic and conservation unit of olive ridleys in the eastern Pacific. We conclude that conservation measures for olive ridleys in Mexico should be revised to grant peninsular beaches special attention. [ABSTRACT FROM AUTHOR]

Published

2005

7. DIFFERENTIAL TOLERANCE AMONG CRYPTIC SPECIES: A POTENTIAL CAUSE OF POLLUTANT-RELATED REDUCTIONS IN GENETIC DIVERSITY.

Author

Rocha-Olivares, Axayácatl, Fleeger, John W., and Foltz, David W.

Subjects

*SPECIES diversity, *TOXICITY testing, *HAZARDOUS waste sites, *BIOLOGICAL assay, *POLYCYCLIC aromatic hydrocarbons

Abstract

Differential mortality of cryptic species (i.e., morphologically similar but genetically distinct sibling species) may contribute to observed reductions in genetic diversity at contaminated sites if the members of a complex of cryptic species exhibit differential responses to the contaminants that are present. We conducted toxicity bioassays with both polynuclear aromatic hydrocarbon and metal contamination on Cletocamptus fourchensis and C. stimpsoni from two intensively sampled locations. Previous molecular and detailed morphological analyses segregated these as cryptic species from the cosmopolitan C. deitersi. We found that these species occur together at two field sites and that they exhibit unique toxic responses to heavy metals, suggesting differential tolerances at contaminated sites. These findings suggest that reported losses of genetic diversity at contaminated sites may represent a reduction in species diversity rather than a loss of the presumed less-tolerant genotypes within a species. They also suggest that members of a cryptic species complex should not be used in laboratory toxicity tests unless populations are genetically characterized. Future studies using genetic diversity as a marker of contaminant effects should consider the possibility of undetected cryptic species. [ABSTRACT FROM AUTHOR]

Published

2004

8. High genetic diversity, large inter-oceanic divergence and historical demography of the striped mullet.

Author

Rocha-Olivares, A., Garber, N. M., and Stuck, K. C.

Published

2000

9. Characterization of polymorphic microsatellites in the Pacific sardine Sardinops sagax sagax (Clupeidae).

Author

Pereyra, R. T., Saillant, E., Pruett, C. L., Rexroad III, C. E., Rocha-Olivares, A., and Gold, J. R.

Subjects

SARDINOPS sagax, SARDINES, MICROSATELLITE repeats, GENETIC polymorphisms, GENOMICS, ANIMAL populations, POPULATION genetics

Abstract

We isolated 11 microsatellites from the Pacific sardine Sardinops sagax sagax. The number of alleles and HE among 30 individuals from a single population ranged from four to 24 and from 0.606 to 0.959, respectively. Pacific sardines are a vital economic resource in the northeastern Pacific Ocean, but insufficiently polymorphic loci have limited inferences about its stock structure and genetic variation. The level of variability of these new markers will prove useful in testing hypotheses on the stock-structure and long-term genetic integrity of the species. [ABSTRACT FROM AUTHOR]

Published

2004