Your search keyword '"Martha S. Nizinski"' showing total 23 results

1. Population structure of Desmophyllum pertusum found along the United States eastern continental margin

Author

Alexis M. Weinnig, Aaron W. Aunins, Veronica Salamone, Andrea M. Quattrini, Martha S. Nizinski, and Cheryl L. Morrison

Subjects

Population connectivity, RADSeq, Deep-sea, Coral, Western north Atlantic Ocean, Medicine, Biology (General), QH301-705.5, Science (General), Q1-390

Abstract

Abstract Objective The connectivity and genetic structuring of populations throughout a region influence a species’ resilience and probability of recovery from anthropogenic impacts. By gaining a comprehensive understanding of population connectivity, more effective management can be prioritized. To assess the connectivity and population genetic structure of a common cold-water coral species, Desmophyllum pertusum (Lophelia pertusa), we performed Restriction-site Associated DNA Sequencing (RADseq) on individuals from nine sites ranging from submarine canyons off New England to the southeastern coast of the United States (SEUS) and the Gulf of Mexico (GOM). Fifty-seven individuals and 3,180 single-nucleotide polymorphisms (SNPs) were used to assess genetic differentiation. Results High connectivity exists among populations along the SEUS, yet these populations were differentiated from those to the north off New England and in Norfolk Canyon along the North Atlantic coast of the United States, as well as those in the GOM. Interestingly, Norfolk Canyon, located just north of North Carolina, and GOM populations exhibited low levels of genetic differentiation, corroborating previous microsatellite analyses and signifying gene flow between these populations. Increasing sample sizes from existing populations and including additional sampling sites over a larger geographic range would help define potential source populations and reveal fine-scale connectivity patterns among D. pertusum populations.

Published

2024

2. Integrative taxonomy reveals a new species of deep-sea squat lobster (Galatheoidea, Munidopsidae) from cold seeps in the Gulf of Mexico

Author

Paula C. Rodríguez-Flores, Julie W. Ambler, and Martha S. Nizinski

Subjects

Biology (General), QH301-705.5

Abstract

The western Atlantic Ocean harbors a diverse fauna of squat lobsters, particularly in the family Munidopsidae. This study introduces Munidopsis sedna sp. nov., a species only found in the Gulf of Mexico and the first species reported to be endemic to cold seeps in the western Atlantic. Our investigation incorporates morphological analyses including micro-CT scanning evidence, multilocus molecular phylogeny, and mtDNA phylogeography, as well as ecological data derived from in situ observations and geographic distribution patterns to substantiate the recognition of the new species. Shallow molecular divergences and multiple morphological differences differentiate the new species from its closest relative, M. longimanus (A. Milne-Edwards, 1880). Additionally, we explore the potential scenario for ecological speciation within this newly identified taxon and discuss its significance in the context of conservation efforts in the Gulf of Mexico.

Published

2024

3. Habitat utilization, demography, and behavioral observations of the squat lobster, Eumunida picta (Crustacea: Anomura: Eumunididae), on western North Atlantic deep-water coral habitats

Author

Martha S. Nizinski, Jennifer P. McClain-Counts, and Steve W. Ross

Subjects

Aquatic Science, Oceanography

Published

2023

4. Exploration of the Canyon-Incised Continental Margin of the Northeastern United States Reveals Dynamic Habitats and Diverse Communities.

Author

Andrea M Quattrini, Martha S Nizinski, Jason D Chaytor, Amanda W J Demopoulos, E Brendan Roark, Scott C France, Jon A Moore, Taylor Heyl, Peter J Auster, Brian Kinlan, Carolyn Ruppel, Kelley P Elliott, Brian R C Kennedy, Elizabeth Lobecker, Adam Skarke, and Timothy M Shank

Subjects

Medicine, Science

Abstract

The continental margin off the northeastern United States (NEUS) contains numerous, topographically complex features that increase habitat heterogeneity across the region. However, the majority of these rugged features have never been surveyed, particularly using direct observations. During summer 2013, 31 Remotely-Operated Vehicle (ROV) dives were conducted from 494 to 3271 m depth across a variety of seafloor features to document communities and to infer geological processes that produced such features. The ROV surveyed six broad-scale habitat features, consisting of shelf-breaching canyons, slope-sourced canyons, inter-canyon areas, open-slope/landslide-scar areas, hydrocarbon seeps, and Mytilus Seamount. Four previously unknown chemosynthetic communities dominated by Bathymodiolus mussels were documented. Seafloor methane hydrate was observed at two seep sites. Multivariate analyses indicated that depth and broad-scale habitat significantly influenced megafaunal coral (58 taxa), demersal fish (69 taxa), and decapod crustacean (34 taxa) assemblages. Species richness of fishes and crustaceans significantly declined with depth, while there was no relationship between coral richness and depth. Turnover in assemblage structure occurred on the middle to lower slope at the approximate boundaries of water masses found previously in the region. Coral species richness was also an important variable explaining variation in fish and crustacean assemblages. Coral diversity may serve as an indicator of habitat suitability and variation in available niche diversity for these taxonomic groups. Our surveys added 24 putative coral species and three fishes to the known regional fauna, including the black coral Telopathes magna, the octocoral Metallogorgia melanotrichos and the fishes Gaidropsarus argentatus, Guttigadus latifrons, and Lepidion guentheri. Marine litter was observed on 81% of the dives, with at least 12 coral colonies entangled in debris. While initial exploration revealed the NEUS region to be both geologically dynamic and biologically diverse, further research into the abiotic conditions and the biotic interactions that influence species abundance and distribution is needed.

Published

2015

5. A phylogenetic perspective on diversity of Galatheoidea (Munida, Munidopsis) from cold-water coral and cold seep communities in the western North Atlantic Ocean

Author

Cheryl L. Morrison, D. Katharine Coykendall, and Martha S. Nizinski

Subjects

0106 biological sciences, 0301 basic medicine, education.field_of_study, Squat lobster, biology, Ecology, Galatheoidea, Population, Species diversity, Oceanography, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Cold seep, 03 medical and health sciences, 030104 developmental biology, Munida, Whale fall, Munidopsis, education

Abstract

Squat lobsters (Galatheoidea and Chirostyloidea), a diverse group of decapod crustaceans, are ubiquitous members of the deep-sea fauna. Within Galatheoidea, the genera Munida and Munidopsis are the most diverse, but accurate estimates of biodiversity are difficult due to morphological complexity and cryptic diversity. Four species of Munida and nine species of Munidopsis from cold-water coral (CWC) and cold seep communities in the northwestern Atlantic Ocean (NWA) and the Gulf of Mexico (GOM) were collected over eleven years and fifteen research cruises in order to assess faunal associations and estimate squat lobster biodiversity. Identification of the majority of specimens was determined morphologically. Mitochondrial COI sequence data, obtained from material collected during these research cruises, was supplemented with published sequences of congeners from other regions. The phylogenetic analysis of Munida supports three of the four NWA and GOM species (M. microphthalma, M. sanctipauli, and M. valida) as closely related taxa. The fourth species, Munida iris, is basal to most other species of Munida, and is closely related to M. rutllanti, a species found in the northeastern Atlantic Ocean (NEA). The majority of the nine species of Munidopsis included in our analyses were collected from chemosynthetic cold seep sites from the GOM. While seep taxa were scattered throughout the phylogenetic tree, four of these species (Munidopsis livida, M. similis, M. bermudezi, and M. species A) from the NWA and the GOM were part of a large eighteen-species clade that included species collected from Pacific Ocean chemosynthetic habitats, such as hydrothermal vents and whale falls. Shinkaia crosnieri was the sister taxon to the chemosynthetic clade, and M. livida was the most basal member of this clade. Munidopsis sp. B, an undescribed species with representative individuals collected from two GOM chemosynthetic sites, exhibited the largest genetic distance from other northern Atlantic species. Generally, intraspecific diversity was lower and patterns of haplotype diversity more simple in species of Munidopsis relative to Munida. This study puts two genera of NWA and GOM squat lobsters into a population genetic and phylogenetic context with regard to biogeography and habitat to enhance understanding of the history and evolutionary trajectories of these morphologically and ecologically diverse groups.

Published

2017

6. Predictive modeling of suitable habitat for deep-sea corals offshore the Northeast United States

Author

Martha S. Nizinski, Matthew Poti, Brian P. Kinlan, David B. Packer, Dan S. Dorfman, and Amy F. Drohan

Subjects

Marine conservation, biology, Biodiversity, Scleractinia, Marine spatial planning, Aquatic Science, Oceanography, biology.organism_classification, Habitat, Alcyonacea, Caryophylliidae, Environmental science, Taxonomic rank, Physical geography

Abstract

Deep-sea corals (DSCs) are important living marine resources, forming both oases of biodiversity and three-dimensional habitat structure for fishes and invertebrates. However, because of logistical difficulties and expense of deep-sea exploration, much less is known about the distribution of DSCs than is known for their shallow-water counterparts. Predictive modeling, therefore, is essential for estimating the extent of DSC habitat in areas that are unexplored in order to support conservation efforts, to provide information for effective management of offshore activities affecting the seafloor, and for future exploration and research. In support of research and management efforts in the U.S. Northeast (Cape Hatteras, NC north to the Canadian border), we developed a comprehensive set of habitat suitability models covering this entire geographic region for nine taxonomic groups of DSCs (Alcyonacea, gorgonian corals, non-gorgonian corals, Scleractinia, Caryophylliidae, Flabellidae, Pennatulacea, Sessiliflorae, and Subselliflorae). Maximum entropy (MaxEnt) models were fit to DSC presence records and spatially-explicit environmental predictors depicting depth and seafloor topography, surficial sediment characteristics, and oceanography. A stepwise model selection procedure was then implemented to identify the set of predictor variables that maximized predictive performance for each taxonomic group. To allow for comparisons across taxonomic groups, the standard MaxEnt logistic predictions were converted into calibrated classes of habitat suitability. Overall, model performance was high for all taxonomic groups. Model fit was best for Caryophylliidae, Sessiliflorae, and Flabellidae, whereas model stability was greatest for the three taxonomic groups of Alcyonacea. Model results reported here corroborate known distributions of corals in the region. For example, large structure-forming taxa are predicted to occur mainly in canyon environments, particularly in areas of steep slope (>30°); sea pens in softer sediments of the continental shelf and slope. Additionally, the models successfully predicted DSC locations during field testing. Despite the limitations of presence-only data, several novel extensions to the traditional MaxEnt analysis workflow improved model selection, accuracy assessment, and comparability of results across taxonomic groups. This approach, when integrated with management processes, could be a powerful tool for science-based conservation, management, and spatial planning for these marine resources.

Published

2020

7. Hundreds of genetic barcodes of the species-rich hydroid superfamily Plumularioidea (Cnidaria, Medusozoa) provide a guide toward more reliable taxonomy

Author

Martha S. Nizinski, John K. Reed, Ricardo S. Santos, Allen Gilbert Collins, Harilaos A. Lessios, Jorge Cortés, Carlos J. Moura, and Universidade do Minho

Subjects

0106 biological sciences, 0301 basic medicine, Paraphyly, Systematics, Species complex, Aquatic Organisms, lcsh:Medicine, Biology, 010603 evolutionary biology, 01 natural sciences, DNA barcoding, Article, 03 medical and health sciences, Monophyly, Cnidaria, Species Specificity, Polyphyly, Animals, DNA Barcoding, Taxonomic, 14. Life underwater, lcsh:Science, Phylogeny, Multidisciplinary, Science & Technology, lcsh:R, Species diversity, Reproducibility of Results, Classification, 030104 developmental biology, Evolutionary biology, lcsh:Q, Species richness

Abstract

Marine hydroids are important benthic components of shallow and deep waters worldwide, but their taxonomy is controversial because diagnostic morphological characters to categorize taxa are limited. Their genetic relationships are also little investigated. We tested taxonomic hypotheses within the highly speciose superfamily Plumularioidea by integrating a classical morphological approach with DNA barcoding of the 16S and COI mitochondrial markers for 659 and 196 specimens of Plumularioidea, respectively. Adding Genbank sequences, we inferred systematic relationships among 1,114 plumularioids, corresponding to 123 nominal species and 17 novel morphospecies in five families of Plumularioidea. We found considerable inconsistencies in the systematics of nominal families, genera and species. The families Kirchenpaueriidae and Plumulariidae were polyphyletic and the Halopterididae paraphyletic. Most genera of Plumularioidea are not monophyletic. Species diversity is considerably underestimated. Within our study, at least 10% of the morphologically-distinctive morphospecies are undescribed, and about 40% of the overall species richness is represented by cryptic species. Convergent evolution and morphological plasticity therefore blur systematic relationships. Additionally, cryptic taxa occur frequently in sympatry or parapatry, complicating correspondence with type material of described species. Sometimes conspecificity of different morphotypes was found. The taxonomy of hydroids requires continued comprehensive revision., This work relied on several hydrozoan samples collected from various sites, with the aid of many people. Supplementary Table S1 refers many of the people involved in the collection and/or preservation of the samples. C.J.M. acknowledges his great buddy-divers Jaime N.-Ruiz (CIMAR, Univ. Costa Rica), Axel Calderon, Nathaniel Chu, Eleni Petrou (STRI, Smiths. Inst.), Hanae Spathias, Karen Koltes (at the Belize station, Smith. Inst.), Freya Sommer (Hopkins Marine Station), Remilson Ferreira ('Costa Norte', Sao Tome), Frederico Cardigos (DOP, Univ. Azores) and others that assisted the dives. C.J.M. also acknowledges Rita Castillo (CIMAR, Univ. Costa Rica), Plinio Gondola, Ligia Calderon, Laura Geyer, Maria Castillo (STRI, Smiths. Inst.), Gregory Ruiz (SERC, Smiths. Inst.), Paul Greenhall, William Keel (MSC, Smith. Inst.), Manuel Enes, Valentina Matos (IMAR/DOP, Univ. Azores), Filipe Porteiro, Joao Goncalves (OKEANOS/IMAR, Univ. Azores), Marina Cunha, Ascensao Ravara (CESAM, Univ. Aveiro), Shirley Pomponi (Harbor Branch, Florida Atlantic Univ.), Estrela Matilde (Fundacao Principe Trust), Monica Albuquerque, Ines Tojeira (EMEPC), Diana Carvalho (Nat. Mus. Nat. Hist., Lisbon) and many others colleagues that facilitated the morphologic classifications and deposition of the samples. Peter Schuchert (Mus. d'Hist. Nat. Geneve) kindly provided some DNA extractes. Todd Kincaid and his team of GUE divers (Project Baseline - Azores) collected valuable samples from unusual depths. Joana Boavida (CIIMAR, Univ. Algarve) facilitated some samples of the 'DeepReefs' project. Jim Drewery (Marine Scotland Science Inst.) also provided few samples. Dale Calder (Royal Ontario Museum) provided some bibliography to C.J.M. and discussed/resolved some dubios taxonomic classifications. Colleagues at the L.A.B. (NMNH, Smith. Inst.) were very supportive. The APC fees for open access publication were supported by a program of the Regional Government of the Azores ("Apoio ao funcionamento e gestao dos centros de I&D regionais: 2018 - DRCT-medida 1.

Published

2018

8. Deep-sea echinoids and holothurians (Echinodermata) near cold seeps and coral communities in the northern Gulf of Mexico

Author

Doris J. Pawson, David L. Pawson, Cheryl Lewis Ames, and Martha S. Nizinski

Subjects

geography, geography.geographical_feature_category, Continental shelf, Coral, Aquatic Science, Biology, Myriotrochus ahearnae, Oceanography, Deep sea, Cold seep, Habitat, Genus, Geological survey

Abstract

Seven National Oceanic and Atmospheric Administration and United States Geological Survey expeditions employed manned submersibles or remotely operated vehicles to explore deep-sea coral and cold seep habitats in the northern central Gulf of Mexico continental slope, off Mississippi and Louisiana. Ten species of echinoids and 21 species of holothurians were collected and/or documented by still photography or videography in a relatively small area, in depths of 309-2549 m. New information on ecology, behavior, and distribution of echinoids and holothurians is provided. A new genus name is proposed to replace Meseres Ludwig, 1893, which is preoccupied. Myriotrochus ahearnae, a new species of apodous myriotrochid holothurian, is described.

Published

2015

9. Deepwater Program: Lophelia II, continuing ecological research on deep-sea corals and deep-reef habitats in the Gulf of Mexico

Author

Amanda W.J. Demopoulos, Andrew Miller, Mike Rhode, Christina A. Kellogg, Martha S. Nizinski, Steve W. Ross, Janessy Frometa, Andrea M. Quattrini, D. Katharine Coykendall, Jennifer P. McClain-Counts, E. Brendan Roark, Ryan M. Phillips, Sandra Brooke, Jill R. Bourque, Michael A. Gray, Cheryl Lewis Ames, Nancy G. Prouty, Julie P. Galkiewicz, Cheryl L. Morrison, Noreen A. Buster, and Marcus J. Springmann

Subjects

geography, Oceanography, geography.geographical_feature_category, Lophelia, Habitat, biology, biology.organism_classification, Deep sea, Reef, Geology

Published

2017

10. Ecological Role of Submarine Canyons and Need for Canyon Conservation: A Review

Author

Jacopo Aguzzi, Jacobo Martín, Jaime S. Davies, A. Louise Allcock, Ashley A. Rowden, Lenaick Menot, Florence Sanchez, Inge van den Beld, Peter T. Harris, Pere Puig, Martha S. Nizinski, Eva Ramirez-Llodra, Veerle A.I. Huvenne, Awantha Dissanayake, Miles Macmillan-Lawler, Kerry L. Howell, U. Fernandez-Arcaya, Govern de les Illes Balears, European Commission, Région Bretagne, and Science Foundation Ireland

Subjects

0106 biological sciences, 010504 meteorology & atmospheric sciences, Ecosystem service, Fishing, Ocean Engineering, Submarine canyon, Conservation, Aquatic Science, Oceanography, 01 natural sciences, Ecosystem services, Ciencias de la Tierra y relacionadas con el Medio Ambiente, purl.org/becyt/ford/1 [https], purl.org/becyt/ford/1.5 [https], Centro Oceanográfico de Baleares, Anthropogenic impacts, Continental margin, Effects of global warming, Ecosystem, Marine Science, 14. Life underwater, Medio Marino, 0105 earth and related environmental sciences, Water Science and Technology, Canyon, Global and Planetary Change, geography, geography.geographical_feature_category, Ecology, 010604 marine biology & hydrobiology, 15. Life on land, Deep water, Management, Submarine canyons, Environmental science, Hydrography, Meteorología y Ciencias Atmosféricas, CIENCIAS NATURALES Y EXACTAS

Abstract

26 pages, 7 figures, 2 tables, supplementary material https://www.frontiersin.org/article/10.3389/fmars.2017.00005/full#supplementary-material, Submarine canyons are major geomorphic features of continental margins around the world. Several recent multidisciplinary projects focused on the study of canyons have considerably increased our understanding of their ecological role, the goods, and services they provide to human populations, and the impacts that human activities have on their overall ecological condition. Pressures from human activities include fishing, dumping of land-based mine tailings, and oil and gas extraction. Moreover, hydrodynamic processes of canyons enhance the down-canyon transport of litter. The effects of climate change may modify the intensity of currents. This potential hydrographic change is predicted to impact the structure and functioning of canyon communities as well as affect nutrient supply to the deep-ocean ecosystem. This review not only identifies the ecological status of canyons, and current and future issues for canyon conservation, but also highlights the need for a better understanding of anthropogenic impacts on canyon ecosystems and proposes other research required to inform management measures to protect canyon ecosystems, UF was funded by the Balearic Government post-doctoral grant 2016, co-financed by European Social Plan; VH was supported by the CODEMAP project (ERC Starting Grant no 258482) and the NERC MAREMAP programme; PP has been funded by the ABIDES project (CTM2015-65142-R); AR was supported by NIWA research project “Impact of resource use on vulnerable deep-sea communities” (MBIE contract CO1X0906). IV was funded by Ifremer and Région Bretagne. ALA is supported by Science Foundation Ireland / Marine Institute IvP award 15/IA/3100

Published

2017

11. Megafaunal-habitat associations at a deep-sea coral mound off North Carolina, USA

Author

Steve W. Ross, Martha S. Nizinski, Michael C. T. Carlson, and Andrea M. Quattrini

Subjects

geography, geography.geographical_feature_category, Ecology, biology, Coral, Fauna, Detritivore, Aquatic Science, biology.organism_classification, Fishery, Beryx, Habitat, Megafauna, Reef, Ecology, Evolution, Behavior and Systematics, Invertebrate

Abstract

Deep-sea corals provide important habitat for many organisms; however, the extent to which fishes and other invertebrates are affiliated with corals or other physical variables is uncertain. The Cape Fear coral mound off North Carolina, USA (366–463 m depth, 33° 34.4′N, 76° 27.8′W) was surveyed using multibeam sonar and the Johnson-Sea-Link submersible. Multibeam bathymetric data (2006) were coupled with in situ video data (2002–2005) to define habitat associations of 14 dominant megafauna at two spatial scales. Results suggested greater habitat specificity of deep-reef fauna than previously documented, with fishes showing greater affinity for certain habitat characteristics than most invertebrates. High vertical profile, degree of coral coverage, and topographic complexity influenced distributions of several species, including Beryx decadactylus, Conger oceanicus, and Novodinia antillensis on the smaller scale (30 × 30 m). On the broad scale (170 × 170 m), several suspension feeders (e.g., N. antillensis, anemones), detritivores (Echinus spp.), and mesopelagic feeders (e.g., Beryx decadactylus, Eumunida picta) were most often found on the south-southwest facing slope near the top of the mound. Transient reef species, including Laemonema barbatulum and Helicolenus dactylopterus, had limited affiliations to topographic complexity and were most often on the mound slope and base. Megafauna at deep-water reefs behave much like shallow-water reef fauna, with some species strongly associated with certain fine-scale habitat attributes, whereas other species are habitat generalists. Documenting the degree of habitat specialization is important for understanding habitat functionality, predicting faunal distributions, and assessing the impacts of disturbance on deep-reef megafauna.

Published

2012

12. Redescription of the leptothecate hydroidHalecium macrocephalumAllman, 1877 (Cnidaria: Hydrozoa)

Author

Lea-Anne Henry, Martha S. Nizinski, and W. Vervoort

Subjects

0106 biological sciences, Cnidaria, biology, Ecology, 010604 marine biology & hydrobiology, Coral, Fauna, Holotype, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Bathyal zone, Benthic zone, Hydroid (zoology), 14. Life underwater, Ecology, Evolution, Behavior and Systematics, Hydrozoa

Abstract

Hydroids are a species-rich component of the benthic fauna inhabiting deep, cold-water coral habitats. Fertile colonies of the leptothecate species Halecium macrocephalum Allman, 1877 collected from cold-water coral habitats off the southeastern USA exhibited morphologically peculiar male gonophores, distinct from those described and illustrated for the holotype. We redescribe H. macrocephalum based on this new material, and consider the gonophores of the holotype to be either damaged or immature. Following re-examination of non-type material (the holotype being lost), we characterize H. macrocephalum as a strictly subtropical western North Atlantic bathyal species, occurring between North Carolina and Florida, the Straits of Florida inclusive of the Bahamas, and the eastern Gulf of Mexico including the Tortugas. This study also provides a taxonomic distinction between H. macrocephalum and its morphologically similar Southern Ocean congener, Halecium jaederholmi Vervoort, 1972.

Published

2011

13. Genetic discontinuity among regional populations of Lophelia pertusa in the North Atlantic Ocean

Author

Martha S. Nizinski, Steve W. Ross, Sandra Brooke, Tim L. King, Rhian G. Waller, Robin L. Johnson, Cheryl L. Morrison, and Johanna Järnegren

Subjects

geography, education.field_of_study, geography.geographical_feature_category, biology, Continental shelf, Range (biology), Ecology, Seamount, Population, biology.organism_classification, Lophelia, Genetics, Spatial ecology, Biological dispersal, education, Ecology, Evolution, Behavior and Systematics, Isolation by distance

Abstract

Knowledge of the degree to which populations are connected through larval dispersal is imperative to effective management, yet little is known about larval dispersal ability or population connectivity in Lophelia pertusa, the dominant framework-forming coral on the continental slope in the North Atlantic Ocean. Using nine microsatellite DNA markers, we assessed the spatial scale and pattern of genetic connectivity across a large portion of the range of L. pertusa in the North Atlantic Ocean. A Bayesian modeling approach found four distinct genetic groupings corresponding to ocean regions: Gulf of Mexico, coastal southeastern U.S., New England Seamounts, and eastern North Atlantic Ocean. An isolation-by-distance pattern was supported across the study area. Estimates of pairwise population differentiation were greatest with the deepest populations, the New England Seamounts (average FST = 0.156). Differentiation was intermediate with the eastern North Atlantic populations (FST = 0.085), and smallest between southeastern U.S. and Gulf of Mexico populations (FST = 0.019), with evidence of admixture off the southeastern Florida peninsula. Connectivity across larger geographic distances within regions suggests that some larvae are broadly dispersed. Heterozygote deficien- cies were detected within the majority of localities sug- gesting deviation from random mating. Gene flow between ocean regions appears restricted, thus, the most effective management scheme for L. pertusa involves regional reserve networks.

Published

2011

14. Phylogenetic revision of the Hippasterinae (Goniasteridae; Asteroidea): systematics of deep sea corallivores, including one new genus and three new species

Author

Christopher L. Mah, Lonny Lundsten, and Martha S. Nizinski

Subjects

Systematics, Monophyly, Hippasteria, biology, Sister group, Genus, Ecology, Calliaster, Animal Science and Zoology, Taxonomy (biology), Goniasteridae, biology.organism_classification, Ecology, Evolution, Behavior and Systematics

Abstract

The Hippasterinae is a subfamily within the Goniasteridae, consisting of five genera and 26 species, which occur in cold-water settings ranging from subtidal to abyssal depths. All known genera were included in a cladistic analysis resulting in two most parsimonious trees, supporting the Hippasterinae as monophyletic. Our review supports Sthenaster emmae gen. etsp. nov. as a new genus and species from the tropical Atlantic and two new Evoplosoma species, Evoplosoma claguei sp. nov. and Evoplosoma voratus sp. nov. from seamounts in the North Pacific. Hippasteria caribaea is reassigned to the genus Gilbertaster, which previously contained a single Pacific species. Our analysis supports Evoplosoma as a derived deep water lineage relative to its continental-shelf, shallow water sister taxa. The genus Hippasteria contains approximately 15 widely distributed, but similar-looking species, which occur in the northern and southern hemispheres. Except for Gilbertaster, at least one species in each genus has been observed or is inferred to prey on deep-sea corals, suggesting that this lineage is important to the conservation of deep-sea coral habitats. The Hippasterinae shares several morphological similarities with Circeaster and Calliaster, suggesting that they may be related. © 2010 The Linnean Society of London, Zoological Journal of the Linnean Society, 2010, 160, 266–301.

Published

2010

15. Occurrence and biogeography of hydroids (Cnidaria: Hydrozoa) from deep-water coral habitats off the southeastern United States

Author

Martha S. Nizinski, Steve W. Ross, and Lea-Anne Henry

Subjects

Deep-water coral, Habitat, biology, Ecology, Species discovery curve, Coral, Hydroid (zoology), Biological dispersal, Species richness, Aquatic Science, Oceanography, biology.organism_classification, Hydrozoa

Abstract

Deep-water coral habitats off the southeastern USA (SEUS) support diverse fish and invertebrate assemblages, but are poorly explored. This study is the first to report on the hydroids collected from these habitats in this area. Thirty-five species, including two species that are likely new to science, were identified from samples collected primarily by manned submersible during 2001–2005 from deep-water coral habitats off North Carolina to east-central Florida. Eleven of the species had not been reported since the 19th to mid-20th century. Ten species, and one family, the Rosalindidae, are documented for the first time in the SEUS. Latitudinal ranges of 15 species are extended, and the deepest records in the western North Atlantic for 10 species are reported. A species accumulation curve illustrated that we continue to add to our knowledge of hydroid diversity in these habitats. Sexually mature individuals were collected for 19 species during the summer to early autumn months. Most of the observed species (89%) liberate planula larvae as part of their life cycles, suggesting that these species exhibit a reproductive strategy that reduces the risk of dispersal to sub-optimal habitats. Hydroids occurred across various substrata including coral rubble, live corals, rock and other animal hosts including hydroids themselves. All observed species were regionally widespread with typically deep-neritic to bathyal sub-tropical/tropical distributions. Hydroid assemblages from deep-water SEUS coral habitats were most similar to those from adjacent deep-water habitats off the SEUS (17 shared species), and those in the Straits of Florida/Bahamas and Caribbean/West Indian regions (14 and 8 shared species, respectively). The similarity to sub-tropical and tropical assemblages and the richness of plumularioids in the SEUS deep-water coral habitats support the idea of a Pleistocene intrusion of tropical species northwards following an intensification of the Gulf Stream from the Caribbean.

Published

2008

16. Predation in subtropical soft-bottom systems: spiny lobster and molluscs in Florida Bay

Author

Martha S. Nizinski

Subjects

Fishery, Ecology, biology, Community structure, Tropics, Subtropics, Aquatic Science, biology.organism_classification, Bay, Spiny lobster, Ecology, Evolution, Behavior and Systematics, Predation

Published

2007

17. Frequency of sublethal injury in a deepwater ophiuroid, Ophiacantha bidentata, an important component of western Atlantic Lophelia reef communities

Author

Steve W. Ross, Martha S. Nizinski, R. Allen Brooks, and Kenneth J. Sulak

Subjects

geography, geography.geographical_feature_category, Ecology, biology, Coral, Aquatic Science, biology.organism_classification, Lophelia, Abundance (ecology), Brittle star, Relative species abundance, Reef, Ecology, Evolution, Behavior and Systematics, Invertebrate, Trophic level

Abstract

The occurrence and relative abundance of tissue (arm) regeneration in the ophiuroid, Ophiacantha bidentata (Retzius), was examined in individuals collected primarily among colonies of the deep-water coral Lophelia pertusa off the southeastern United States. Seven deep-water coral sites (384–756 m), located between Cape Lookout, NC, and Cape Canaveral, FL, were sampled in June 2004 using a manned submersible. The presence of regenerative tissue was evaluated by visual inspection of each individual ophiuroid, and the proportion of regenerating arms per individual was examined relative to size of individual, geographic location, and depth of collection. Ophiacantha bidentata, the dominant brittle star collected, commonly displayed signs of sublethal injury with over 60% of individuals displaying some evidence of regeneration. These levels of regeneration rival those reported for shallow-water ophiuroids. Larger individuals (>6.5 mm disc size) had a higher incidence of regeneration than smaller individuals. Size of individual and percent of regeneration were negatively correlated with depth. Although O. bidentata was significantly less abundant in southern versus northern sites, ophiuroid abundance did not appear to be influenced by amount or density of coral substratum. Presence of dense aggregations of O. bidentata indicates that they are an important component of the invertebrate assemblage associated with deep-water coral habitat especially in the northern part of the study area. Assuming that observed frequencies of injury and subsequent regeneration represent predation events then dense ophiuroid aggregations in deep-water coral habitats represent an important renewable trophic resource within these communities.

Published

2007

18. Range Extensions and Taxonomic Notes on Atlantic Myxasteridae (Velatida; Asteroidea)

Author

Jean-François Hamel, Annie Mercier, Christopher L. Mah, and Martha S. Nizinski

Subjects

biology, Range (biology), Morphological variation, Zoology, Biodiversity, Myxasteridae, biology.organism_classification, Type (biology), Asteroidea, Velatida, Animalia, Animal Science and Zoology, Ecology, Evolution, Behavior and Systematics, Taxonomy, Echinodermata

Abstract

Newly collected specimens of the Atlantic Myxaster sol and a further record of Pythonaster atlantidis add to the knownoccurrence records and the morphological variation of these rarely encountered species. Distribution data suggests thatboth M. sol and P. atlantidis are pan-Atlantic species and are similar to other widely distributed deep-sea asteroid species.Re-examination of the type of Myxaster perrieri further supports its placement within Myxaster and not Pythonaster as has been recently reported.

Published

2012

19. Catalog of type specimens of recent fishes in the National Museum of Natural History, Smithsonian Institution

Author

Bruce B. Collette, Martha S. Nizinski, and Nikolay V. Parin

Subjects

National Museum of Natural History, Type (biology), History, Smithsonian institution, Agency (sociology), Library science, General Medicine

Abstract

NMNH ; NH-Vertebrate Zoology ; SDR ; affiliated agency staff ; NH-Invertebrate Zoology ; SISP ; Peer-reviewed

Published

1992

20. Catalogue of squat lobsters of the world (Crustacea: Decapoda: Anomura-families Chirostylidae, Galatheidae and Kiwaidae)

Author

Chia-Wei Lin, Celso Rodrigues, Shane T. Ahyong, Kareen E. Schnabel, Martha S. Nizinski, Keiji Baba, Adriana Bermúdez, Patricia Cabezas, Gary C. B. Poore, and Enrique Macpherson

Subjects

Arthropoda, Galatheoidea, Munididae, Galatheidae, Kiwaidae, Crustacea, Decapoda, Munida, Animalia, Munidopsis, Malacostraca, Ecology, Evolution, Behavior and Systematics, Taxonomy, Squat lobster, biology, Ecology, Biodiversity, biology.organism_classification, Checklist, Fishery, Chirostylidae, Animal Science and Zoology, Type locality, Anomura

Abstract

220 páginas, 5 figuras, 1 tabla., [EN] This adaptation text reproduces Anexo I of the dissertation “Results”: Sistemática e historia evolutiva de la Familia Galatheidae (Crustacea: Anomura) en el Pacífico Sur, of Patricia Cabezas (2010) http://hdl.handle.net/10261/134771, [ES] Este artículo es una adaptación del Anexo I de la tesis doctoral: Sistemática e historia evolutiva de la Familia Galatheidae (Crustacea: Anomura) en el Pacífico Sur, of Patricia Cabezas (2010) http://hdl.handle.net/10261/134771, Taxonomic and ecological interest in squat lobsters has grown considerably over the last two decades. A checklist of the 870 current valid species of squat lobsters of the world (families Chirostylidae, Galatheidae and Kiwaidae) is presented. The compilation includes the complete taxonomic synonymy and geographical distribution of each species plus type information (type locality, repository and registration number). The numbers of described species in the world’s major ocean basins are summarised.

Published

2008

21. Deepwater Program: Studies of Gulf of Mexico lower continental slope communities related to chemosynthetic and hard substrate habitats

Author

Adela Roa-Varon, Cheryl L. Morrison, Christina A. Kellogg, Andrea M. Quattrini, Daniel J. Gualtieri, Steve W. Ross, Kaitlin Kovacs, Martha S. Nizinski, Amanda W.J. Demopoulos, Jennifer P. McClain, Andrew D. Thaler, Cheryl Lewis Ames, and Tara L. Casazza

Subjects

Chemosynthesis, geography, Oceanography, geography.geographical_feature_category, Habitat, Continental shelf, Geology, Hard substrate

Published

2012

22. Description of a new deep-water species of Alpheus Fabricius, 1798 from the Gulf of Mexico (Crustacea, Decapoda, Alpheidae)

Author

Martha S. Nizinski and Arthur Anker

Subjects

Fishery, Caridea, biology, Decapoda, biology.animal, Animal Science and Zoology, biology.organism_classification, Crustacean, Ecology, Evolution, Behavior and Systematics, Alpheidae, Deep water

Abstract

A new deep-water species of the snapping shrimp genus Alpheus Fabricius, 1798 is described from two offshore localities in the northern Gulf of Mexico, south of Louisiana. Alpheus lentiginosus n. sp. belongs to the A. macrocheles (Hailstone, 1835) species group and is most closely related to the western Atlantic A. pouang Christoffersen, 1979 and A. amblyonyx Chace 1972, the eastern Atlantic A. platydactylus Coutière, 1897 and A. macrocheles (Hailstone, 1835), and perhaps also to the eastern Pacific A. exilis Kim & Abele, 1988. The new species is associated with deep-water soft sediments adjacent to clusters of Lophelia pertusa (L.) (Scleractinia) or mud-covered rocks and cobble, at a depth range of 336–438 m, thus representing the deepest-known record of the Alpheidae in the Gulf of Mexico and the entire western Atlantic.

Published

2011

23. Symphurus melasmatotheca and S. undecimplerus (Cynoglossidae, Pleuronectiformes), Two New Eastern Pacific Tonguefishes with Eleven Caudal-Fin Rays

Author

Martha S. Nizinski and Thomas A. Munroe

Subjects

Dorsum, Blind side, Symphurus, Fish fin, Holotype, Animal Science and Zoology, Gulf of Tehuantepec, Anatomy, Aquatic Science, Biology, biology.organism_classification, Ecology, Evolution, Behavior and Systematics

Abstract

Two new species of eastern Pacific tonguefishes with an unusual count of 11 caudal-fin rays are described. Symphurus melasmatotheca (southern Gulf of California to northern Peru) is characterized by having 11 caudal-fin rays, a welldeveloped pupillary operculum, 90-98 dorsal-fin rays, 74-80 anal-fin rays, 4952 total vertebrae, four hypurals, a 1-5-3 (less frequently, 1-4-3) pattern of interdigitation of dorsal pterygiophores and neural spines, and 82-98 longitudinal scale rows. Symphurus melasmatotheca also has a unique pigmentation pattern that consists of a black peritoneum, crossbanding on the body and posterior part of the head, a distinctively black isthmus, light speckling on the inner lining of the ocular-side opercle, and an unpigmented inner lining of the opercle on the blind side of the body. Symphurus undecimplerus (Gulf of Tehuantepec to northern Peru) is distinguished from its congeners by a combination of 11 caudal-fin rays, a well-developed pupillary operculum, a 1-5-3 (less frequently 1-4-4 or 1-54) pattern of interdigitation of dorsal pterygiophores and neural spines, 97-105 dorsal-fin rays, 80-87 anal-fin rays, 52-56 total vertebrae, 95-112 longitudinal scale rows, an unpigmented or infrequently lightly spotted peritoneum, crossbanding on the body and posterior part of the head, a dark (but usually not black) isthmus, and absence of pigment on the inner linings of the opercles on both sides of the body. Differences in geographic and bathymetric distributions between species are also noted.

Published

1990