Your search keyword '"IJsseldijk, Lonneke"' showing total 169 results

151. A Record of Twin Fetuses in a Harbor Porpoise (Phocoena phocoena) Stranded on the Dutch Coast.

Author

IJsseldijk, Lonneke L., Gröne, Andrea, Hiemstra, Sjoukje, Hoekendijk, Jeroen, and Begeman, Lineke

Subjects

*TWINS, *HARBOR porpoise, *DALL porpoise, *WHALES, *AUTOLYSIS, *REPRODUCTION

Abstract

The article focuses on a study regarding the twinning incidence of harbor porpoise Phocoenoides dalli stranded along the coast of the Dutch island of Texel, Netherlands on April 13, 2011. Information regarding the pluriparity in whales, the mortality rates on whales during delivery, and the state of autolysis on adult whales.

Published

2014

152. Spatiotemporal mortality and demographic trends in a small cetacean: Strandings to inform conservation management.

Author

IJsseldijk, Lonneke L., ten Doeschate, Mariel T.I., Brownlow, Andrew, Davison, Nicholas J., Deaville, Rob, Galatius, Anders, Gilles, Anita, Haelters, Jan, Jepson, Paul D., Keijl, Guido O., Kinze, Carl Chr., Olsen, Morten Tange, Siebert, Ursula, Thøstesen, Charlotte Bie, van den Broek, Jan, Gröne, Andrea, and Heesterbeek, Hans

Subjects

*ANIMAL mortality, *MARINE ecosystem health, *CETACEA, *HARBOR porpoise, *ANIMAL populations, *MORTALITY

Abstract

With global increases in anthropogenic pressures on wildlife populations comes a responsibility to manage them effectively. The assessment of marine ecosystem health is challenging and often relies on monitoring indicator species, such as cetaceans. Most cetaceans are however highly mobile and spend the majority of their time hidden from direct view, resulting in uncertainty on even the most basic population metrics. Here, we discuss the value of long-term and internationally combined stranding records as a valuable source of information on the demographic and mortality trends of the harbour porpoise (Phocoena phocoena) in the North Sea. We analysed stranding records (n = 16,181) from 1990 to 2017 and demonstrate a strong heterogeneous seasonal pattern of strandings throughout the North Sea, indicative of season-specific distribution or habitat use, and season-specific mortality. The annual incidence of strandings has increased since 1990, with a notable steeper rise particularly in the southern North Sea since 2005. A high density of neonatal strandings occurred specifically in the eastern North Sea, indicative of areas important for calving, and large numbers of juvenile males stranded in the southern parts, indicative of a population sink or reflecting higher male dispersion. These findings highlight the power of stranding records to detect potentially vulnerable population groups in time and space. This knowledge is vital for managers and can guide, for example, conservation measures such as the establishment of time-area-specific limits to potentially harmful human activities, aiming to reduce the number and intensity of human-wildlife conflicts. • International data synthesis to understand wildlife mortality and demographic trends • We demonstrate the value of long-term surveillance exemplified by stranding records. • Our analyses indicate potential vulnerable population groups in time and space. • Analytical methods allow establishment of robust baseline of spatiotemporal variation. • Results guide conservation measures aiming to reduce human-wildlife conflicts at sea. [ABSTRACT FROM AUTHOR]

Published

2020

153. Forensic microbiology reveals that Neisseria animaloris infections in harbour porpoises follow traumatic injuries by grey seals.

Author

Foster, Geoffrey, Whatmore, Adrian M., Dagleish, Mark P., Malnick, Henry, Gilbert, Maarten J., Begeman, Lineke, Macgregor, Shaheed K., Davison, Nicholas J., Roest, Hendrik Jan, Jepson, Paul, Howie, Fiona, Muchowski, Jakub, Brownlow, Andrew C., Wagenaar, Jaap A., Kik, Marja J. L., Deaville, Rob, Doeschate, Mariel T. I. ten, Barley, Jason, Hunter, Laura, and IJsseldijk, Lonneke L.

Subjects

MICROBIAL forensics, NEISSERIA, DENTAL caries, CUSPIDS, HISTOPATHOLOGY

Abstract

Neisseria animaloris is considered to be a commensal of the canine and feline oral cavities. It is able to cause systemic infections in animals as well as humans, usually after a biting trauma has occurred. We recovered N. animaloris from chronically inflamed bite wounds on pectoral fins and tailstocks, from lungs and other internal organs of eight harbour porpoises. Gross and histopathological evidence suggest that fatal disseminated N. animaloris infections had occurred due to traumatic injury from grey seals. We therefore conclude that these porpoises survived a grey seal predatory attack, with the bite lesions representing the subsequent portal of entry for bacteria to infect the animals causing abscesses in multiple tissues, and eventually death. We demonstrate that forensic microbiology provides a useful tool for linking a perpetrator to its victim. Moreover, N. animaloris should be added to the list of potential zoonotic bacteria following interactions with seals, as the finding of systemic transfer to the lungs and other tissues of the harbour porpoises may suggest a potential to do likewise in humans. [ABSTRACT FROM AUTHOR]

Published

2019

154. Polluted porpoises: Generational transfer of organic contaminants in harbour porpoises from the southern North Sea.

Author

van den Heuvel-Greve, Martine J., van den Brink, Anneke M., Kotterman, Michiel J.J., Kwadijk, Christiaan J.A.F., Geelhoed, Steve C.V., Murphy, Sinéad, van den Broek, Jan, Heesterbeek, Hans, Gröne, Andrea, and IJsseldijk, Lonneke L.

Published

2021

155. Population genomics of the white-beaked dolphin (Lagenorhynchus albirostris): Implications for conservation amid climate-driven range shifts.

Author

Gose MA, Humble E, Brownlow A, Wall D, Rogan E, Sigurðsson GM, Kiszka JJ, Thøstesen CB, IJsseldijk LL, Ten Doeschate M, Davison NJ, Øien N, Deaville R, Siebert U, and Ogden R

Subjects

Animals, Metagenomics, Climate Change, Temperature, Dolphins genetics

Abstract

Climate change is rapidly affecting species distributions across the globe, particularly in the North Atlantic. For highly mobile and elusive cetaceans, the genetic data needed to understand population dynamics are often scarce. Cold-water obligate species such as the white-beaked dolphin (Lagenorhynchus albirostris) face pressures from habitat shifts due to rising sea surface temperatures in addition to other direct anthropogenic threats. Unravelling the genetic connectivity between white-beaked dolphins across their range is needed to understand the extent to which climate change and anthropogenic pressures may impact species-wide genetic diversity and identify ways to protect remaining habitat. We address this by performing a population genomic assessment of white-beaked dolphins using samples from much of their contemporary range. We show that the species displays significant population structure across the North Atlantic at multiple scales. Analysis of contemporary migration rates suggests a remarkably high connectivity between populations in the western North Atlantic, Iceland and the Barents Sea, while two regional populations in the North Sea and adjacent UK and Irish waters are highly differentiated from all other clades. Our results have important implications for the conservation of white-beaked dolphins by providing guidance for the delineation of more appropriate management units and highlighting the risk that local extirpation may have on species-wide genetic diversity. In a broader context, this study highlights the importance of understanding genetic structure of all species threatened with climate change-driven range shifts to assess the risk of loss of species-wide genetic diversity., (© 2024. The Author(s).)

Published

2024

156. Microstructural differences in the osteochondral unit of terrestrial and aquatic mammals.

Author

Mancini IAD, Levato R, Ksiezarczyk MM, Castilho MD, Chen M, van Rijen MHP, IJsseldijk LL, Kik M, van Weeren PR, and Malda J

Subjects

Animals, Extracellular Matrix, Skin, Mammals, Cartilage, Articular

Abstract

During evolution, animals have returned from land to water, adapting with morphological modifications to life in an aquatic environment. We compared the osteochondral units of the humeral head of marine and terrestrial mammals across species spanning a wide range of body weights, focusing on microstructural organization and biomechanical performance. Aquatic mammals feature cartilage with essentially random collagen fiber configuration, lacking the depth-dependent, arcade-like organization characteristic of terrestrial mammalian species. They have a less stiff articular cartilage at equilibrium with a significantly lower peak modulus, and at the osteochondral interface do not have a calcified cartilage layer, displaying only a thin, highly porous subchondral bone plate. This totally different constitution of the osteochondral unit in aquatic mammals reflects that accommodation of loading is the primordial function of the osteochondral unit. Recognizing the crucial importance of the microarchitecture-function relationship is pivotal for understanding articular biology and, hence, for the development of durable functional regenerative approaches for treatment of joint damage, which are thus far lacking., Competing Interests: IM, RL, MK, MC, MC, Mv, LI, MK, Pv, JM No competing interests declared, (© 2023, Mancini et al.)

Published

2023

157. Harbor Porpoise Deaths Associated with Erysipelothrix rhusiopathiae, the Netherlands, 2021.

Author

IJsseldijk LL, Begeman L, Duim B, Gröne A, Kik MJL, Klijnstra MD, Lakemeyer J, Leopold MF, Munnink BBO, Ten Doeschate M, van Schalkwijk L, Zomer A, der Graaf-van Bloois LV, and Broens EM

Subjects

Animals, Netherlands epidemiology, Phocoena, Erysipelothrix

Abstract

In August 2021, a large-scale mortality event affected harbor porpoises (Phocoena phocoena) in the Netherlands. Pathology and ancillary testing of 22 animals indicated that the most likely cause of death was Erysipelothrix rhusiopathiae infection. This zoonotic agent poses a health hazard for cetaceans and possibly for persons handling cetacean carcasses.

Published

2023

158. Cochlear apical morphology in toothed whales: Using the pairing hair cell-Deiters' cell as a marker to detect lesions.

Author

Morell M, IJsseldijk LL, Piscitelli-Doshkov M, Ostertag S, Estrade V, Haulena M, Doshkov P, Bourien J, Raverty SA, Siebert U, Puel JL, and Shadwick RE

Subjects

Animals, Biomarkers metabolism, Hair Cells, Auditory, Outer metabolism, Hair Cells, Auditory, Outer pathology, Humans, Organ of Corti pathology, Whales, Cochlea pathology, Hearing Loss, Noise-Induced metabolism

Abstract

The apex or apical region of the cochlear spiral within the inner ear encodes for low-frequency sounds. The disposition of sensory hair cells on the organ of Corti is largely variable in the apical region of mammals, and it does not necessarily follow the typical three-row pattern of outer hair cells (OHCs). As most underwater noise sources contain low-frequency components, we expect to find most lesions in the apical region of the cochlea of toothed whales, in cases of permanent noise-induced hearing loss. To further understand how man-made noise might affect cetacean hearing, there is a need to describe normal morphological features of the apex and document interspecific anatomic variations in cetaceans. However, distinguishing between apical normal variability and hair cell death is challenging. We describe anatomical features of the organ of Corti of the apex in 23 ears from five species of toothed whales (harbor porpoise Phocoena phocoena, spinner dolphin Stenella longirostris, pantropical spotted dolphin Stenella attenuata, pygmy sperm whale Kogia breviceps, and beluga whale Delphinapterus leucas) by scanning electron microscopy and immunofluorescence. Our results showed an initial region where the lowest frequencies are encoded with two or three rows of OHCs, followed by the typical configuration of three OHC rows and three rows of supporting Deiters' cells. Whenever two rows of OHCs were detected, there were usually only two corresponding rows of supporting Deiters' cells, suggesting that the number of rows of Deiters' cells is a good indicator to distinguish between normal and pathological features., (© 2021 The Authors. The Anatomical Record published by Wiley Periodicals LLC on behalf of American Association for Anatomy.)

Published

2022

159. Reconstructing the diet, trophic level and migration pattern of mysticete whales based on baleen isotopic composition.

Author

Riekenberg PM, Camalich J, Svensson E, IJsseldijk LL, Brasseur SMJM, Witbaard R, Leopold MF, Rebolledo EB, Middelburg JJ, van der Meer MTJ, Sinninghe Damsté JS, and Schouten S

Abstract

Baleen from mysticete whales is a well-preserved proteinaceous material that can be used to identify migrations and feeding habits for species whose migration pathways are unknown. Analysis of δ 13 C and δ 15 N values from bulk baleen have been used to infer migration patterns for individuals. However, this approach has fallen short of identifying migrations between regions as it is difficult to determine variations in isotopic shifts without temporal sampling of prey items. Here, we apply analysis of δ 15 N values of amino acids to five baleen plates belonging to three species, revealing novel insights on trophic position, metabolic state and migration between regions. Humpback and minke whales had higher reconstructed trophic levels than fin whales (3.7-3.8 versus 3-3.2, respectively) as expected due to different feeding specialization. Isotopic niche areas between baleen minima and maxima were well separated, indicating regional resource use for individuals during migration that aligned with isotopic gradients in Atlantic Ocean particulate organic matter. Phenylanine δ 15 N values confirmed regional separation between the niche areas for two fin whales as migrations occurred and elevated glycine and threonine δ 15 N values suggested physiological changes due to fasting. Simultaneous resolution of trophic level and physiological changes allow for identification of regional migrations in mysticetes., (© 2021 The Authors.)

Published

2021

160. Nutritional status and prey energy density govern reproductive success in a small cetacean.

Author

IJsseldijk LL, Hessing S, Mairo A, Ten Doeschate MTI, Treep J, van den Broek J, Keijl GO, Siebert U, Heesterbeek H, Gröne A, and Leopold MF

Subjects

Animals, Cetacea metabolism, Conservation of Natural Resources methods, Energy Metabolism physiology, Female, Hydrobiology methods, Netherlands, Polychlorinated Biphenyls adverse effects, Polychlorinated Biphenyls analysis, Pregnancy, Reproduction drug effects, Sexual Behavior, Animal drug effects, Water Pollutants, Chemical adverse effects, Water Pollutants, Chemical analysis, Nutritional Status physiology, Phocoena metabolism, Reproduction physiology

Abstract

A variety of mammals suppress reproduction when they experience poor physical condition or environmental harshness. In many marine mammal species, reproductive impairment has been correlated to polychlorinated biphenyls (PCBs), the most frequently measured chemical pollutants, while the relative importance of other factors remains understudied. We investigate whether reproductively active females abandon investment in their foetus when conditions are poor, exemplified using an extensively studied cetacean species; the harbour porpoise (Phocoena phocoena). Data on disease, fat and muscle mass and diet obtained from necropsies in The Netherlands were used as proxies of health and nutritional status and related to pregnancy and foetal growth. This was combined with published life history parameters for 16 other areas to correlate to parameters reflecting environmental condition: mean energy density of prey constituting diets (MEDD), cumulative human impact and PCB contamination. Maternal nutritional status had significant effects on foetal size and females in poor health had lower probabilities of being pregnant and generally did not sustain pregnancy throughout gestation. Pregnancy rates across the Northern Hemisphere were best explained by MEDD. We demonstrate the importance of having undisturbed access to prey with high energy densities in determining reproductive success and ultimately population size for small cetaceans., (© 2021. The Author(s).)

Published

2021

161. Vertebral pattern variation in the North Sea harbor porpoise (Phocoena phocoena) by computed tomography.

Author

Willems DS, IJsseldijk LL, van den Broek DHN, and Veraa S

Subjects

Animals, Female, Male, North Sea, Tomography, X-Ray Computed, Phocoena anatomy & histology, Spine diagnostic imaging

Abstract

Vertebral series in the harbor porpoise (Phocoena phocoena) include cervical, thoracic, lumbar, and caudal. In contrast to studying skeletons from museums, in which small bones can be missed, evaluation of full body computed tomography (CT) scans provides an overview of the vertebral column, while maintaining interrelationship of all structures. The aim of this study was to document variations in vertebral patterning of the harbor porpoise via evaluation of CT images of intact stranded harbor porpoises. The harbor porpoises were divided into age classes, based on developmental stage of reproductive organs on postmortem examination and closure of proximal humeral physis on CT. Numbers of vertebrae per series, fusion state of the syncervical, type of first hemal arch, number of double articulating ribs, and floating ribs were recorded based on CT images. Included in the study were 48 harbor porpoises (27 males and 21 females), which were divided in two age classes (27 immatures and 21 adults). Total vertebral count varied from 63 to 68 with vertebral formula range C7T12-14L12-16Cd29-33. Twenty-five different vertebral formulas were found, of which C7T13L14Ca30 was the most common (n = 8, 17%). Thoracic vertebrae with six, seven, or eight double articulating ribs and zero, one, or two vertebrae with floating ribs were seen. Four different fusion states of the syncervical and four types of hemal arches were recognized. This study showed a great variation in vertebral patterning in the harbor porpoise, with homeotic and meristic variation in the thoracic, lumbar, and caudal vertebral series., (© 2021 The Authors. The Anatomical Record published by Wiley Periodicals LLC on behalf of American Association for Anatomy.)

Published

2021

162. Whale lice ( Isocyamus deltobranchium & Isocyamus delphinii ; Cyamidae) prevalence in odontocetes off the German and Dutch coasts - morphological and molecular characterization and health implications.

Author

Lehnert K, IJsseldijk LL, Uy ML, Boyi JO, van Schalkwijk L, Tollenaar EAP, Gröne A, Wohlsein P, and Siebert U

Abstract

Whale lice (Cyamidae; Amphipoda) are ectoparasitic crustaceans adapted to the marine environment with cetaceans as their host. There are few reports of cyamids occurring in odontocetes from the North Sea, and long-term studies are lacking. Marine mammal health was monitored along the German and Dutch coasts in the past decades, with extensive post mortem investigations conducted. The aim of this study was to analyse archived ectoparasite samples from stranded cetaceans from the North Sea (2010-2019), to determine species, prevalence and impact of ectoparasite infection. Ectoparasites were found on two cetacean species - harbour porpoises ( Phocoena phocoena ), as the most abundant cetacean species in the North Sea, and on a pilot whale ( Globicephala melas ), as a rare species here. Prevalence of ectoparasitic crustaceans in cetaceans was low: 7.6% in porpoises stranded in the Netherlands (n = 608) and 1.6% in porpoises stranded in Germany (n = 122). All whale lice infections were found on hosts with skin lesions characterised by ulcerations. Morphological investigations revealed characteristic differences between the cyamid species Isocyamus (I.) delphinii and I. deltobranchium identified. Isocyamus deltobranchium was determined in all infected harbour porpoises. I. delphinii was identified on only the pilot whale. Molecular analyses showed 88% similarity of mDNA COI sequences of I. delphinii with I. deltobranchium supporting them as separate species. Phylogenetic analyses of additional gene loci are required to fully assess the diversity and exchange of whale lice species between geographical regions as well as host specificity. Differing whale lice prevalences in porpoises stranded in the Netherlands and Germany could indicate a difference in severity of skin lesions between these areas. It should be further investigated if more inter- or intraspecific contact, e.g., due to a higher density of porpoises or contact with other cetaceans, or a poorer health status of porpoises in the southern North Sea could explain these differences., Competing Interests: Ethical standards: Ethical review and approval was not required for the animal study because all animals in our study were found dead, died naturally or were euthanized based on welfare grounds and none of the animals were killed for the purpose of this study. This publication was supported by 10.13039/501100001659Deutsche Forschungsgemeinschaft and 10.13039/501100005629University of Veterinary Medicine Hannover, Foundation within the funding programme Open Access Publishing., (© 2021 The Author(s).)

Published

2021

163. What a stranded whale with scoliosis can teach us about human idiopathic scoliosis.

Author

de Reuver S, IJsseldijk LL, Homans JF, Willems DS, Veraa S, van Stralen M, Kik MJL, Kruyt MC, Gröne A, and Castelein RM

Subjects

Animals, Biomechanical Phenomena, Female, Humans, Scoliosis pathology, Spine pathology, Scoliosis etiology, Scoliosis veterinary, Whales physiology

Abstract

Scoliosis is a deformation of the spine that may have several known causes, but humans are the only mammal known to develop scoliosis without any obvious underlying cause. This is called 'idiopathic' scoliosis and is the most common type. Recent observations showed that human scoliosis, regardless of its cause, has a relatively uniform three-dimensional anatomy. We hypothesize that scoliosis is a universal compensatory mechanism of the spine, independent of cause and/or species. We had the opportunity to study the rare occurrence of scoliosis in a whale (Balaenoptera acutorostrata) that stranded in July 2019 in the Netherlands. A multidisciplinary team of biologists, pathologists, veterinarians, taxidermists, radiologists and orthopaedic surgeons conducted necropsy and imaging analysis. Blunt traumatic injury to two vertebrae caused an acute lateral deviation of the spine, which had initiated the development of compensatory curves in regions of the spine without anatomical abnormalities. Three-dimensional analysis of these compensatory curves showed strong resemblance with different types of human scoliosis, amongst which idiopathic. This suggests that any decompensation of spinal equilibrium can lead to a rather uniform response. The unique biomechanics of the upright human spine, with significantly decreased rotational stability, may explain why only in humans this mechanism can be induced relatively easily, without an obvious cause, and is therefore still called 'idiopathic'.

Published

2021

164. Challenges in the Assessment of Bycatch: Postmortem Findings in Harbor Porpoises ( Phocoena phocoena ) Retrieved From Gillnets.

Author

IJsseldijk LL, Scheidat M, Siemensma ML, Couperus B, Leopold MF, Morell M, Gröne A, and Kik MJL

Subjects

Animals, Autopsy veterinary, Netherlands, North Sea, Phocoena

Abstract

Bycatch is considered one of the most significant threats affecting cetaceans worldwide. In the North Sea, bottom-set gillnets are a specific risk for harbor porpoises ( Phocoena phocoena ). Methods to estimate bycatch rates include on-board observers, remote electronic monitoring, and fishermen voluntarily reporting; none of these are systematically conducted. Additionally, necropsies of stranded animals can provide insights into bycatch occurrence and health status of individuals. There are, however, uncertainties when it comes to the assessment of bycatch in stranded animals, mainly due to the lack of diagnostic tools specific for underwater entrapment. We conducted a literature review to establish criteria that aid in the assessment of bycatch in small cetaceans, and we tested which of these criteria applied to harbor porpoises retrieved from gillnets in the Netherlands ( n = 12). Twenty-five criteria were gathered from literature. Of these, "superficial incisions," "encircling imprints," and "recent ingestion of prey" were observed in the vast majority of our confirmed bycatch cases. Criteria like "pulmonary edema," "pulmonary emphysema," and "organ congestion" were also frequently observed, although considered unspecific as an indicator of bycatch. Notably, previously mentioned criteria as "favorable health status," "absence of disease," or "good nutritional condition" did not apply to the majority of our bycaught porpoises. This may reflect an overall reduced fitness of harbor porpoises inhabiting the southern North Sea or a higher chance of a debilitated porpoise being bycaught, and could result in an underestimation of bycatch rates when assessing stranded animals.

Published

2021

165. Anisakid nematode species identification in harbour porpoises ( Phocoena phocoena ) from the North Sea, Baltic Sea and North Atlantic using RFLP analysis.

Author

Lakemeyer J, Siebert U, Abdulmawjood A, Ryeng KA, IJsseldijk LL, and Lehnert K

Abstract

Harbour porpoises ( Phocoena phocoena ) are the only native cetacean species in the German North and Baltic Seas and the final host of Anisakis ( A .) simplex , which infects their first and second gastric compartments and may cause chronic ulcerative gastritis. Anisakis simplex belongs to the family Anisakidae (Ascaridoidea, Rhabditida) as well as the phocine gastric nematode species Pseudoterranova ( P .) decipiens and Contracaecum ( C .) osculatum . These nematode species are the main causative agents for the zoonosis anisakidosis. The taxonomy of these genus with life cycles including crustaceans and commercially important fish is complex because of the formation of sibling species. Little is known about anisakid species infecting porpoises in the study area. Mature nematodes and larval stages are often identifiable only by molecular methods due to high morphological and genetic similarity. The restriction fragment length polymorphism (RFLP) method is an alternative to sequencing and was applied to identify anisakid nematodes found in harbour porpoises from the North Sea, Baltic Sea and North Atlantic to species level for the first time. In the study areas, five gastric nematodes from different harbour porpoise hosts were selected to be investigated with restriction enzymes Hinf I, Rsa I and Hae III, which were able to differentiate several anisakid nematode species by characteristic banding patterns. Anisakis simplex s. s. was the dominant species found in the North Sea and Baltic porpoises, identified by all three restriction enzymes. Additionally, a hybrid of A . simplex s. s. and A . pegreffii was determined by Hinf I in the North Sea samples. Within the North Atlantic specimens, A . simplex s. s., P . decipiens s. s. and Hysterothylacium ( H .) aduncum were identified by all enzymes. This demonstrates the value of the RFLP method and the chosen restriction enzymes for the species identification of a broad variety of anisakid nematodes affecting the health of marine mammals., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2020 Published by Elsevier Ltd on behalf of Australian Society for Parasitology.)

Published

2020

166. After the bite: bacterial transmission from grey seals ( Halichoerus grypus ) to harbour porpoises ( Phocoena phocoena ).

Author

Gilbert MJ, IJsseldijk LL, Rubio-García A, Gröne A, Duim B, Rossen J, Zomer AL, and Wagenaar JA

Abstract

Recent population growth of the harbour porpoise ( Phocoena phocoena ), grey seal ( Halichoerus grypus ) and common seal ( Phoca vitulina ) in the North Sea has increased potential interaction between these species. Grey seals are known to attack harbour porpoises. Some harbour porpoises survive initially, but succumb eventually, often showing severely infected skin lesions. Bacteria transferred from the grey seal oral cavity may be involved in these infections and eventual death of the animal. In humans, seal bites are known to cause severe infections. In this study, a 16S rRNA-based microbiome sequencing approach is used to identify the oral bacterial diversity in harbour porpoises, grey seals and common seals; detect the potential transfer of bacteria from grey seals to harbour porpoises by biting and provide insights in the bacteria with zoonotic potential present in the seal oral cavity. β-diversity analysis showed that 12.9% (4/31) of the harbour porpoise skin lesion microbiomes resembled seal oral microbiomes, while most of the other skin lesion microbiomes also showed seal-associated bacterial species, including potential pathogens. In conclusion, this study shows that bacterial transmission from grey seals to harbour porpoises by biting is highly likely and that seal oral cavities harbour many bacterial pathogens with zoonotic potential., Competing Interests: We have no competing interests., (© 2020 The Authors.)

Published

2020

167. Plastic ingestion by harbour porpoises Phocoena phocoena in the Netherlands: Establishing a standardised method.

Author

van Franeker JA, Bravo Rebolledo EL, Hesse E, IJsseldijk LL, Kühn S, Leopold M, and Mielke L

Subjects

Animals, Ecosystem, Netherlands, North Sea, Reference Standards, Diet, Phocoena, Plastics

Abstract

Stomach contents of harbour porpoises (Phocoena phocoena) collected in the Netherlands between 2003 and 2013 were inspected for the presence of plastic and other man-made litter. In 654 stomach samples the frequency of occurrence of plastic litter was 7% with less than 0.5% additional presence of non-synthetic man-made litter. However, we show that when a dedicated standard protocol for the detection of litter is followed, a considerably higher percentage (15% of 81 harbour porpoise stomachs from the period 2010-2013) contained plastic litter. Results thus strongly depended on methods used and time period considered. Occurrence of litter in the stomach was correlated to the presence of other non-food remains like stones, shells, bog-wood, etc., suggesting that litter was often ingested accidentally when the animals foraged close to the bottom. Most items were small and were not considered to have had a major health impact. No evident differences in ingestion were found between sexes or age groups, with the exception that neonates contained no litter. Polyethylene and polypropylene were the most common plastic types encountered. Compared to earlier literature on the harbour porpoise and related species, our results suggest higher levels of ingestion of litter. This is largely due to the lack of dedicated protocols to investigate marine litter ingestion in previous studies. Still, the low frequency of ingestion, and minor number and mass of litter items found in harbour porpoises in the relatively polluted southern North Sea indicates that the species is not a strong candidate for annual monitoring of marine litter trends under the EU marine strategy framework directive. However, for longer-term comparisons and regional differences, with proper dedicated protocols applied, the harbour porpoise has specific use in quantifying litter presence in the, for that specific objective, poorly studied benthic marine habitat.

Published

2018

168. Quantifying parasite presence in relation to biological parameters of harbour porpoises Phocoena phocoena stranded on the Dutch coast.

Author

Ten Doeschate MTI, IJsseldijk LL, Hiemstra S, de Jong EA, Strijkstra A, Gröne A, and Begeman L

Subjects

Animals, Ear Diseases parasitology, Ear Diseases veterinary, Liver Diseases parasitology, Liver Diseases veterinary, Lung Diseases, Parasitic veterinary, Netherlands, Parasitic Diseases, Animal pathology, Stomach Diseases parasitology, Stomach Diseases veterinary, Parasitic Diseases, Animal parasitology, Phocoena parasitology

Abstract

Harbour porpoises are often found to be infected by endoparasites in several organs including the lungs and stomach as well as the heart, liver and ears. Nevertheless there is still little knowledge about the impact, ecology, transmission, and virulence of these parasitic infections. Here, we profile the presence of parasites in 4 frequently infected organs (lungs, stomach, liver and ears) in relation to biological parameters of harbour porpoises stranded along the Dutch coastline between December 2008 and December 2013. We found that parasites were common, with prevalence of 68% in lungs, 74.4% in ears, 26% in stomach and 23.5% in liver. We used generalised linear models to further quantify parasite presence in relation to biological data gathered during necropsy (sex, body length and nutritive condition). Body length (used as a proxy for age) was significant in explaining parasite presence for all organs with increasing probability of having the parasite with increasing body length. For the parasitic infections in the ears and stomach the nutritive condition was an additional significant factor, with a higher probability of parasite presence in porpoises in a poorer nutritive condition. The results of this study can be used as a baseline for assessing parasite presence in harbour porpoises and are a first step towards linking parasite infections to basic biological data gathered during necropsy.

Published

2017

169. Anisakis spp. induced granulomatous dermatitis in a harbour porpoise Phocoena phocoena and a bottlenose dolphin Tursiops truncatus.

Author

van Beurden SJ, IJsseldijk LL, Cremers HJ, Gröne A, Verheije MH, and Begeman L

Subjects

Animals, Anisakiasis diagnosis, Anisakiasis parasitology, Anisakis genetics, Dermatitis diagnosis, Dermatitis parasitology, Diagnosis, Differential, Female, Male, Netherlands, Anisakiasis veterinary, Anisakis isolation & purification, Bottle-Nosed Dolphin, Dermatitis veterinary, Phocoena

Abstract

Cetaceans are well known definitive hosts of parasitic nematodes of the genus Anisakis (Nematoda: Anisakidae). Anisakid nematodes are also a health hazard for humans, potentially causing gastrointestinal infections or allergic reactions following the consumption of infected fish. In marine mammals, the nematodes develop from third-stage larvae to adults in the stomachs. In the first (or fore-) stomach, these parasites are typically associated with mucosal ulceration; parasites have not been identified in other organs. Two small cetaceans, a bottlenose dolphin Tursiops truncatus and a harbour porpoise Phocoena phocoena, presented marked gastric A. simplex infection, as well as chronic granulomatous and ulcerative dermatitis with intralesional nematodes, bordered by epithelial hyperplasia. Nematodes in the skin of the bottlenose dolphin were morphologically similar to Anisakis spp. Morphology of the parasitic remnants in the skin lesion of the harbour porpoise was indistinct, but molecular identification confirmed the presence of A. simplex. This is the first report of Anisakis spp. infection in the skin of marine mammals.

Published

2015