Sylvain Larrat, Véronique Lesage, Robert Michaud, Stéphane Lair
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The models predicted a lower nutritional condition for the ‘neonatal mortality’ in belugas <290 cm in length and for ‘primary starvation’ and ‘verminous pneumonia’ categories for belugas ≥290 cm. Belugas that died from ‘dystocia—postpartum complications’ or from ‘undetermined causes’ had a higher-than-average SMI. Animals in the ‘trauma—entrapment’ category did not exhibit the highest nutritional condition, which was unexpected since individuals that died from trauma or entrapment are often used as references for optimal nutritional condition in other cetacean populations. Females that died from dystocia and postpartum complications were in similar nutritional condition as females dead from other causes during, or shortly after, pregnancy. This suggests that these females are not obese, ruling out a possible cause of dystocia. Although studying dead animals biases results toward low nutritional condition, our findings support the link between chronic pathological processes and poorer nutritional condition in belugas.","PeriodicalId":11252,"journal":{"name":"Diseases of aquatic organisms","volume":null,"pages":null},"PeriodicalIF":1.1000,"publicationDate":"2024-09-12","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Relationship between nutritional condition and causes of death in beluga whales Delphinapterus leucas from the St. Lawrence estuary, Quebec, Canada\",\"authors\":\"Sylvain Larrat, Véronique Lesage, Robert Michaud, Stéphane Lair\",\"doi\":\"10.3354/dao03812\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"ABSTRACT: Carcasses of endangered beluga whales <i>Delphinapterus leucas</i> from the St. Lawrence Estuary, Canada, have been examined consistently since 1983 to determine causes of death. The objective of this study is to compare the nutritional condition of belugas that died of different causes. Previously published categories of death were refined to discriminate acute from chronic pathological processes. Bayesian linear models were used to predict cause of death from the scaled mass index (SMI). Causes of death were as follows: ‘bacterial diseases’, ‘verminous pneumonia’, ‘toxoplasmosis’, ‘other parasitic diseases’, ‘other infectious diseases’, ‘trauma—entrapment’, ‘other noninfectious diseases’, ‘dystocia—postpartum complications’, ‘neonatal mortality’, ‘cancer’, ‘primary starvation’ and ‘undetermined’. The models predicted a lower nutritional condition for the ‘neonatal mortality’ in belugas <290 cm in length and for ‘primary starvation’ and ‘verminous pneumonia’ categories for belugas ≥290 cm. Belugas that died from ‘dystocia—postpartum complications’ or from ‘undetermined causes’ had a higher-than-average SMI. Animals in the ‘trauma—entrapment’ category did not exhibit the highest nutritional condition, which was unexpected since individuals that died from trauma or entrapment are often used as references for optimal nutritional condition in other cetacean populations. Females that died from dystocia and postpartum complications were in similar nutritional condition as females dead from other causes during, or shortly after, pregnancy. This suggests that these females are not obese, ruling out a possible cause of dystocia. 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Relationship between nutritional condition and causes of death in beluga whales Delphinapterus leucas from the St. Lawrence estuary, Quebec, Canada
ABSTRACT: Carcasses of endangered beluga whales Delphinapterus leucas from the St. Lawrence Estuary, Canada, have been examined consistently since 1983 to determine causes of death. The objective of this study is to compare the nutritional condition of belugas that died of different causes. Previously published categories of death were refined to discriminate acute from chronic pathological processes. Bayesian linear models were used to predict cause of death from the scaled mass index (SMI). Causes of death were as follows: ‘bacterial diseases’, ‘verminous pneumonia’, ‘toxoplasmosis’, ‘other parasitic diseases’, ‘other infectious diseases’, ‘trauma—entrapment’, ‘other noninfectious diseases’, ‘dystocia—postpartum complications’, ‘neonatal mortality’, ‘cancer’, ‘primary starvation’ and ‘undetermined’. The models predicted a lower nutritional condition for the ‘neonatal mortality’ in belugas <290 cm in length and for ‘primary starvation’ and ‘verminous pneumonia’ categories for belugas ≥290 cm. Belugas that died from ‘dystocia—postpartum complications’ or from ‘undetermined causes’ had a higher-than-average SMI. Animals in the ‘trauma—entrapment’ category did not exhibit the highest nutritional condition, which was unexpected since individuals that died from trauma or entrapment are often used as references for optimal nutritional condition in other cetacean populations. Females that died from dystocia and postpartum complications were in similar nutritional condition as females dead from other causes during, or shortly after, pregnancy. This suggests that these females are not obese, ruling out a possible cause of dystocia. Although studying dead animals biases results toward low nutritional condition, our findings support the link between chronic pathological processes and poorer nutritional condition in belugas.
期刊介绍:
DAO publishes Research Articles, Reviews, and Notes, as well as Comments/Reply Comments (for details see DAO 48:161), Theme Sections and Opinion Pieces. For details consult the Guidelines for Authors. Papers may cover all forms of life - animals, plants and microorganisms - in marine, limnetic and brackish habitats. DAO''s scope includes any research focusing on diseases in aquatic organisms, specifically:
-Diseases caused by coexisting organisms, e.g. viruses, bacteria, fungi, protistans, metazoans; characterization of pathogens
-Diseases caused by abiotic factors (critical intensities of environmental properties, including pollution)-
Diseases due to internal circumstances (innate, idiopathic, genetic)-
Diseases due to proliferative disorders (neoplasms)-
Disease diagnosis, treatment and prevention-
Molecular aspects of diseases-
Nutritional disorders-
Stress and physical injuries-
Epidemiology/epizootiology-
Parasitology-
Toxicology-
Diseases of aquatic organisms affecting human health and well-being (with the focus on the aquatic organism)-
Diseases as indicators of humanity''s detrimental impact on nature-
Genomics, proteomics and metabolomics of disease-
Immunology and disease prevention-
Animal welfare-
Zoonosis