Margaret O. Amsler

Filamentous algal endophytes in macrophytic Antarctic algae: prevalence in hosts and palatability to mesoherbivores

Amsler C.D., Amsler M.O., McClintock J.B. and Baker B.J. 2009. Filamentous algal endophytes in macrophytic Antarctic algae: prevalence in hosts and palatability to mesoherbivores. Phycologia 48: 324–334. DOI: 10.2216/08-79.1. Five individuals, each from 13 common species of large macroalgae (‘macrophytes’) from the western Antarctic Peninsula, were surveyed for the presence of filamentous algal endophytes both macroscopically and microscopically using dissecting and compound microscopes. Of the 13 species surveyed, endophytes were either rare or absent in five. The remaining species all supported endophytes in most or usually all individuals with maximum endophyte densities per species ranging from 3% to 75% of the thallus area. Thallus fragments from all individuals with endophytes were placed into culture, and 99 unialgal, filamentous brown algal strains were isolated. The ITS1 gene was sequenced in each strain to sort these into distinct genotypes. Brown algal endophytes grew well in culture, and 10 distinct filamentous genotypes were present. The green endophytes did not grow well in culture, and only two green algal species present in the thallus fragments were isolated. No-choice feeding rate bioassays were performed with thallus fragments of all 13 macrophyte species and with cultures of seven filamentous brown endophytes and both green endophytes. Feeding rates on the endophytes were 2–3 orders of magnitude higher than rates on 12 of the macrophyte species and 2- to 6-fold higher than on the only truly palatable macrophyte, Palmaria decipiens. These data support the hypothesis that Antarctic macrophytes are commonly endophytized and that the endophytes benefit from the association by being protected, at least in part, from amphipod herbivory.

The Mg-Calcite Composition of Antarctic Echinoderms: Important Implications for Predicting the Impacts of Ocean Acidification

The Southern Ocean is considered to be the canary in the coal mine with respect to the first effects of ocean acidification (OA). This vulnerability is due to naturally low carbonate ion concentrations that result from the effect of low temperature on acid-base dissociation coefficients, from the high solubility of CO2 at low temperature, and from ocean mixing. Consequently, the two calcium carbonate polymorphs, aragonite and calcite, are expected to become undersaturated in the Southern Ocean within 50 and 100 years, respectively. Marine invertebrates such as echinoderms, whose skeletons are classified as high-magnesium carbonate (>4% mol MgCO3), are even more vulnerable to OA than organisms whose skeletons consist primarily of aragonite or calcite, with respect to both increased susceptibility to skeletal dissolution and further challenge to their production of skeletal elements. Currently, despite their critical importance to predicting the effects of OA, there is almost no information on the Mg-calcite composition of Antarctic echinoderms, a group known to be a major contributor to the global marine carbon cycle. Here we report the Mg-calcite compositions of 26 species of Antarctic echinoderms, representing four classes. As seen in tropical and temperate echinoderms, Mg-calcite levels varied with taxonomic class, with sea stars generally having the highest levels. When combined with published data for echinoderms from primarily temperate and tropical latitudes, our findings support the hypothesis that Mg-calcite level varies inversely with latitude. Sea stars and brittle stars, key players in Antarctic benthic communities, are likely to be the first echinoderms to be challenged by near-term OA.

Tissue-specific palatability and chemical defenses against macropredators and pathogens in the common articulate brachiopod Liothyrella uva from the Antarctic Peninsula

The punctate terebratulid brachiopod Liothyrella uva is the most common brachiopod species in Antarctica. Whole brachiopods, either live or freeze dried and ground into a powder and suspended in alginate, were unpalatable to the sympatric macropredators Odontaster validus (an abundant, omnivorous sea star) and Notothenia coriiceps (an abundant, omnivorous, epibenthic fish). The unpalatability of these ground tissues coupled with that of lipophilic extracts of whole L. uva presented in alginate pellets to O. validus, suggests an involvement of chemical defenses. Several isolated brachiopod tissues were also unpalatable to O. validus after being freeze dried, ground and suspended in alginate, but only the pedicle was unpalatable in such preparations to both O. validus and N. coriiceps. This observation is consistent with the Optimal Defense Theory since the pedicle is the only tissue not protected inside the brachiopod shell. There was, however, no correlation between the energetic content and unpalatability of any of the individual tissues. Organic extracts of tissues involved in feeding (lophophore and intestine–stomach) had relatively strong antimicrobial activity when assayed against several strains of Antarctic bacteria. However, the lophophore was palatable to both macropredators, suggesting nonoverlapping chemical defenses are involved in protection against predators and pathogens.

A comparative analysis of the nutritional and elemental composition of macroalgae from the western Antarctic Peninsula

K.J. Peters, C.D. Amsler, M.O. Amsler, J.B. McClintock, R.B. Dunbar and B.J. Baker. 2005. A comparative analysis of the nutritional and elemental composition of macroalgae from the western Antarctic Peninsula. Phycologia 44: 453–463. The nutritional compositions of 40 antarctic macroalgal species from the western Antarctic Peninsula were analyzed during two periods, one early in the growing season and one late in the growing season. Protein levels were greater than those reported in macroalgae from temperate and tropical latitudes. These high protein levels are presumed to be related to the nutrient-rich waters in which the macroalgae reside. There was a significant interaction between time of season and species as well as taxonomic grouping for the species collected both seasons. A total of 36 species were further analyzed for total percent N and C and their C : N ratios. Total nitrogen [% dry weight (dw)] levels were found to be above critical nitrogen levels (1.5%dw) reportedly needed for maximum growth in all but two of the species examined. The C : N ratios were found to be low with respect to those published from other latitudes and similar to those reported in the waters off the western Antarctic Peninsula. Nineteen species had C : N ratios below 10 : 1, which is half of the 20 : 1 C : N ratio reported as a mean for benthic marine plants from temperate and tropical latitudes. Analysis of nutritional composition and elemental content yielded no correlations between protein levels and nitrogen contents when all macroalgae were combined. Our results support the general hypothesis that nitrogen is not a limiting factor for protein production of antarctic macroalgae.

An evaluation of sponge-associated amphipods from the Antarctic Peninsula

Abstract Nearshore marine benthic algal communities along the western Antarctic Peninsula harbour extremely high densities of amphipods that probably play important roles in nutrient and energy flow. This study extends our evaluation of the importance of amphipods in the nearshore Antarctic Peninsular benthic communities and focuses on sponge associations. We found a mean density of 542 amphipods per litre (L) sponge for twelve species of ecologically dominant sponges. The highest mean density (1295 amphipods per L sponge) occurred with Dendrilla membranosa Pallas. The amphipod community associated with the 12 sponges was diverse (38 species), with mean species richness values ranging from two to eight species. Mean Shannon diversity indices (H’) ranged from 0.52 to 1.49. Amphipods did not appear to have obligate host relationships. Qualitative gut content analyses indicated that 12 of the 38 amphipod species were found with sponge spicules in their guts. However, only one of the amphipods, Echiniphimedia hodgsoni Walker, had considerable amounts of spicules in the gut. Organic lipophilic and hydrophilic extracts of the twelve sponges were presented in alginate food disks to a sympatric omnivorous amphipod in feeding bioassays and extracts of only two sponges deterred feeding.

Potential chemical defenses against diatom fouling in Antarctic macroalgae

Abstract Crude extracts of Antarctic macroalgae were examined for toxicity to model strains of sympatric diatoms that could potentially foul them in nature. This is an initial step in determining the potential for ecologically relevant macroalgal defenses against fouling. Extracts of two species collected from McMurdo Sound were toxic to diatoms at or below concentrations originally present in the macroalgal thalli (the “natural concentration”). At least one extract type of all 22 western Antarctic Peninsula macroalgae was toxic at three-times the natural concentration and at least one extract type in 15 of these species was toxic at the natural concentration.

Norselic Acids A−E, Highly Oxidized Anti-infective Steroids that Deter Mesograzer Predation, from the Antarctic Sponge Crella sp.

Five new steroids, norselic acids A-E (1-5), were isolated from the sponge Crella sp. collected in Antarctica. The planar structures of the norselic acids were established by extensive NMR spectroscopy and mass spectrometry studies, and the configuration of norselic acid A (1) was elucidated by X-ray crystallography. Norselic acid A displays antibiotic activity against methicillin-resistant Staphylococcus aureus (MRSA), methicillin-sensitive S. aureus (MSSA), vancomycin-resistant Enterococcus faecium (VRE), and Candida albicans and reduces consumption of food pellets by sympatric mesograzers. Compounds 1-5 are also active against the Leishmania parasite at low micromolar levels.

No barrier to emergence of bathyal king crabs on the Antarctic shelf

Significance For tens of millions of years, cold conditions have excluded shell-crushing fish and crustaceans from the continental shelf surrounding Antarctica. Rapid warming is now allowing predatory crustaceans to return. Our study of the continental slope off the western Antarctic Peninsula showed that abundant, predatory king crabs comprise a reproductively viable population at 841- to 2,266-m depth. Depth profiles of temperature, salinity, habitat structure, food availability, and predators indicate that there are no barriers to prevent king crabs from moving upward onto the outer shelf at 400–550 m. A cold-water barrier above 200 m could be breached within the next few decades. Emergence of king crabs on the shelf could have catastrophic consequences for the unique seafloor communities of Antarctica. Cold-water conditions have excluded durophagous (skeleton-breaking) predators from the Antarctic seafloor for millions of years. Rapidly warming seas off the western Antarctic Peninsula could now facilitate their return to the continental shelf, with profound consequences for the endemic fauna. Among the likely first arrivals are king crabs (Lithodidae), which were discovered recently on the adjacent continental slope. During the austral summer of 2010‒2011, we used underwater imagery to survey a slope-dwelling population of the lithodid Paralomis birsteini off Marguerite Bay, western Antarctic Peninsula for environmental or trophic impediments to shoreward expansion. The population density averaged ∼4.5 individuals × 1,000 m−2 within a depth range of 1,100‒1,500 m (overall observed depth range 841–2,266 m). Images of juveniles, discarded molts, and precopulatory behavior, as well as gravid females in a trapping study, suggested a reproductively viable population on the slope. At the time of the survey, there was no thermal barrier to prevent the lithodids from expanding upward and emerging on the outer shelf (400- to 550-m depth); however, near-surface temperatures remained too cold for them to survive in inner-shelf and coastal environments (<200 m). Ambient salinity, composition of the substrate, and the depth distribution of potential predators likewise indicated no barriers to expansion of lithodids onto the outer shelf. Primary food resources for lithodids—echinoderms and mollusks—were abundant on the upper slope (550–800 m) and outer shelf. As sea temperatures continue to rise, lithodids will likely play an increasingly important role in the trophic structure of subtidal communities closer to shore.

Photographic survey of benthos provides insights into the Antarctic fish fauna from the Marguerite Bay slope and the Amundsen Sea

Abstract We reviewed photographic images of fishes from depths of 381–2282 m in Marguerite Bay and 405–2007 m in the Amundsen Sea. Marguerite Bay fishes were 33% notothenioids and 67% non-notothenioids. Channichthyids (47%) and nototheniids (44%) were the most abundant notothenioids. The deep-living channichthyid Chionobathyscus dewitti (74%) and the nototheniid genus Trematomus (66%) were the most abundant taxa within these two families. The most abundant non-notothenioids were the macrourid Macrourus whitsoni (72%) and zoarcids (18%). Amundsen Sea fishes were 87% notothenioids and 13% non-notothenioids, the latter exclusively Macrourus whitsoni. Bathydraconids (38%) and artedidraconids (30%) were the most abundant notothenioids. We observed that Macrourus whitsoni was benthopelagic and benthic and infested by large ectoparasitic copepods. Juvenile (42 cm) Dissostichus mawsoni was not neutrally buoyant and resided on the substrate at 1277 m. Lepidonotothen squamifrons was seen near and on nests of eggs in early December. A Pogonophryne sp. from 2127 m was not a member of the deep-living unspotted P. albipinna group. Chionobathyscus dewitti inhabited the water column as well as the substrate. The pelagic zoarcid Melanostigma gelatinosum was documented in the water column a few metres above the substrate. The zoogeographic character of the Marguerite Bay fauna was West Antarctic or low-Antarctic and the Amundsen Sea was East Antarctic or high-Antarctic.

The use of computer-assisted motion analysis for quantitative studies of the behaviour of barnacle ( Balanus amphitrite ) larvae

The effects of larval density and age on pre-settlement swimming behaviour of Balanus amphitrite cyprid larvae were studied with the aid of computer-assisted motion analysis. Swimming behaviour was monitored in individual, in groups of 10–15 and in groups of 50–100 cyprids. There was a small, but significant effect of larval density on swimming speed and no effect on two other quantitative measures: rate of change of direction and net-to-gross displacement ratio. There was also small but significant variation in swimming speed between different batches of cyprids over the course of 2 years. Swimming behaviour of individual cyprid larvae was also monitored daily for 7 days, with the larvae maintained in the cold and dark between measurements to prevent settlement and metamorphosis. There were no significant behavioural differences observed over time indicating that larvae may be held in this manner experimentally without affecting these parameters.