Environmental implications of plastic debris in marine settings—entanglement,ingestion, smothering,hangers-on,hitch-hiking and alien invasions

Over the past five or six decades, contamination and pollution of the world’s enclosed seas, coastal waters and the wider open oceans by plastics and other synthetic, non-biodegradable materials (generally known as ‘marine debris’) has been an ever-increasing phenomenon. The sources of these polluting materials are both land- and marine-based, their origins may be local or distant, and the environmental consequences are many and varied. The more widely recognized problems are typically associated with entanglement, ingestion, suffocation and general debilitation, and are often related to stranding events and public perception. Among the less frequently recognized and recorded problems are global hazards to shipping, fisheries and other maritime activities. Today, there are rapidly developing research interests in the biota attracted to freely floating (i.e. pelagic) marine debris, commonly known as ‘hangers-on and hitch-hikers’ as well as material sinking to the sea floor despite being buoyant. Dispersal of aggressive alien and invasive species by these mechanisms leads one to reflect on the possibilities that ensuing invasions could endanger sensitive, or at-risk coastal environments (both marine and terrestrial) far from their native habitats.     

FISHING GEAR INVOLVED IN ENTANGLEMENTS OF RIGHT AND HUMPBACK WHALES

Interactions between marine mammals and fishing gear are an issue of global concern. Entanglements in the western North Atlantic are a major source of injury and mortality for endangered large whales. In this study, entanglements of 31 right whales ( Eubalaena glacialis ) and 30 humpback whales ( Megaptera novaeangliae ) were analyzed to determine the types and parts of gear involved. When gear was identified, 89% ( n = 32) of the entanglements were attributed to pot and gill net gear; however, a wide range of specific gear types were implicated. Despite gear recovery, gear type was not identified in 20% ( n = 9) of the cases. Although pot gear was recovered from both species equally, gill net gear was less frequently retrieved from right whales ( n = 2) than humpback whales ( n = 11). When gear part was identified, 81% ( n = 21) involved entanglements in buoy line and/or groundline. For right whales, the most common point of gear attachment was the mouth (77.4%); for humpback whales, the tail (53%) and the mouth (43%) were common attachment sites. Four right and three humpback whales in this sample were known to have died subsequent to entanglement. However, when identified, the gear types and parts involved in lethal cases were not substantially different from entanglements with non-lethal outcomes. Large whales can become entangled in a wide variety of fishing gear types and parts, and additional insight will depend on continued efforts to document entanglements and recover associated gear.     

Modeling whale entanglement injuries: An experimental study of tissue compliance, line tension, and draw-length

Two test systems were developed to evaluate the influence of draw‐length and tissue compliance on entanglement‐induced epidermal abrasion in humpback (Megaptera novaeangliae) and right whale (Eubalaena glacialis) tissue samples. Under straight pull abrasion tests, an adult right whale fluke required 3.7 times the load and 15 times the draw‐length of a right whale calf flipper to induce epidermal failure whereas a humpback fluke was intermediate between these extremes. A load applied tangentially to the leading edge of the fluke or flipper resulted in a substantial, but reversible, deflection of the leading edge in the direction of the applied load. The maximum possible deformation of the leading edge under shear load, prior to the line slipping relative to the skin, was defined as the tissue compliance limit. Oscillatory abrasion tests revealed that line draw‐lengths exceeding the tissue compliance limit resulted in substantially increased tissue abrasion. In actual entanglements, line draw‐length relative to the tissue compliance may determine if the line will cut into the body or simply press against the skin. Increasing the entangling line's ability to stretch in response to a load could potentially minimize sliding of the line relative to the skin and help mitigate entanglement injuries.     

EXPERIMENTAL MODELING OF LARGE WHALE ENTANGLEMENT INJURIES

The abrasive impact of commercial fishing gear on right whale fluke tissue was modeled using a reciprocating load generator. A line passing over the leading edge of a fluke specimen was fixed at one end while the other end was loaded in an oscillatory manner. A 24‐h abrasion test using an accelerated loading rate of 60 cycles/min and a 9.0‐kg load on the fixed end of the most abrasive line tested (old sink line) was used to simulate a whale swimming 2 m/s towing four standard lobster buoys for five days. A tension load of 267 N was generated on the oscillatory side of the fluke. The test line failed to break the skin on the fluke but, instead, produced a compression furrow (maximum depth 0.31 cm) that closely resembled marks found on stranded right (Eubalaena glacialis) and humpback (Megaptera novaeangliae) whales. Different line types (float vs. sink) and ages of rope (new vs. old) produced furrows of varying depths and appearances. Further tests characterizing whale skin/fishing line interactions will provide a better understanding of the mechanisms that govern entanglement injuries and provide a framework for better forensic analysis and interpretation of gear‐related injuries observed in large whales.     

Status of the world's baleen whales

No global synthesis of the status of baleen whales has been published since the 2008 IUCN Red List assessments. Many populations remain at low numbers from historical commercial whaling, which had ceased for all but a few by 1989. Fishing gear entanglement and ship strikes are the most severe current threats. The acute and long‐term effects of anthropogenic noise and the cumulative effects of multiple stressors are of concern but poorly understood. The looming consequences of climate change and ocean acidification remain difficult to characterize. North Atlantic and North Pacific right whales are among the species listed as Endangered. Southern right, bowhead, and gray whales have been assessed as Least Concern but some subpopulations of these species ‐ western North Pacific gray whales, Chile‐Peru right whales, and Svalbard/Barents Sea and Sea of Okhotsk bowhead whales ‐ remain at low levels and are either Endangered or Critically Endangered. Eastern North Pacific blue whales have reportedly recovered, but Antarctic blue whales remain at about 1% of pre‐exploitation levels. Small isolated subspecies or subpopulations, such as northern Indian Ocean blue whales, Arabian Sea humpback whales, and Mediterranean Sea fin whales are threatened while most subpopulations of sei, Bryde's, and Omura's whales are inadequately monitored and difficult to assess.     

Functional interactions of gastric mucus glycoprotein

The concentration-dependence of viscosity in solutions of purified glycoprotein from pig gastric mucus is of the form expected for simple polymer entanglement. At higher concentrations, however, a weak viscoelastic gel is formed, whose mechanical spectrum (over the frequency range 10⁻²---10² rad s⁻¹) indicates a more stable mechanism of interchain association, and is closely similar to that of native mucus. On prolonged exposure to solvent, reconstituted gels redissolve, while native mucus retains its structural integrity (as characterized by the storage modulus, G′) but releases a significant, variable amount of glycoprotein. On proteolytic digestion or disulphide reduction of the glycoprotein to its component subunits, network structure is lost, but the mechanical spectra of the resulting solutions show interactions beyond simple entanglement. From this evidence we suggest that in the sub-micrometre-sized ‘domains’ in which native mucus is secreted, the carbohydrate side chains of component glycoprotein molecules are interdigitated in a comparatively stable arrangement, with the polymeric subunit structure of the glycoprotein conferring the branching required for development of a three-dimensional network, and with a substantial, variable sol-fraction of free glycoprotein within the interstices of the gel. On solubilization of native mucus, the ‘domain’ structure is destroyed irreversibly. Interaction between domains, and between individual molecules in gels reconstituted from the component glycoprotein after extraction and purification, is by more transient, non-specific interdigitation and entanglement, to confer the overall flow and spreading characteristics of the gel.     

Plastics and insects: Records of ants entangled in synthetic fibres

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Estimating maximal force output of cetaceans using axial locomotor muscle morphology

Cetaceans span a large range of body sizes and include species with the largest known locomotor muscles. To date, force output and thrust production have only been directly measured in the common bottlenose dolphin (Tursiops truncatus), although thrust forces have been hydrodynamically modeled for some whales. In this study, two metrics of epaxial muscle size—cross‐sectional area (CSA) and mass—were used to estimate force output for 22 species (n = 83 specimens) ranging in size from bottlenose dolphins to blue whales (Balaenoptera musculus). Relative to total body length (TL), maximum force output estimated based upon both muscle CSA (TL^{1.56 ± 0.05}) and mass (TL^{2.64 ± 0.07}) scaled at rates lower than those predicted by geometric scaling, suggesting relative force output decreases with increasing body size in cetaceans. Estimated maximal force outputs were compared to both published drag forces and to the breaking strengths of commercial fishing lines known to entangle whales. The breaking strengths of these lines are within the same order of magnitude, and in some cases, exceed the estimated maximal force output of whales. These results suggest that while powerful animals, large whales may be unable to break the extremely strong fishing line used today.     

A gaussian model for substrates of entangled cross-linked poly(ethylene glycol) in biomedical applications

Cells usually spread on a synthetic substrate through bonds between receptors and chemical groups on the substrate (ligands). Therefore, it is valuable to study the effects of the average number density of these chemical groups and the average distance between them to model and predict the cell behavior. Poly(ethylene glycol) [PEG] modified with peptide groups has been used widely in biomedical applications as a substrate material. In this study, a coarse-grained model is proposed for PEG to predict the average number density of ligands and the average distance between them. Molecular information such as initial molecular weight distribution, average molecular weight between cross-links, and average molecular weight between entanglements is used as input parameters. Based on simulation results, it is concluded that both entanglement and cross-link densities are required to create a network structure. The results suggest that an average initial molecular weight 2-3 times the average molecular weight between entanglements and a moderate cross-link density are sufficient to create a closed network structure with a high ligand density and a small average distance between them.     

Polarization in France

The special relationship between France and the polarization of light from the beginning of the 19th century until the present day is reviewed in the lives and works of Étienne Louis Malus, François Arago, Jean‐Baptiste Biot, Augustin Fresnel, Louis Pasteur, Frédéric Wallerant, Aimé Cotton, Francis Perrin, and Alain Aspect. To avoid a redundant presentation of information that can be found with an Internet search engine, the author emphasizes how the aforementioned individuals have influenced the studies of stereochemistry, molecular chirality, and the polarization of light in his research group.