Your search keyword '"Susan Jobling"' showing total 4 results

1. From the Editor’s Desk, Editor’s Highlights, Letters to the Editor

Author

Poul Bjerregaard, Karen A. Kidd, Susan Jobling, R. Thomas Zoeller, Andreas Kortenkamp, Niels E. Skakkebæk, Ingvar Brandt, Georg Becher, Jorma Toppari, Laura N. Vandenberg, Riana Bornman, Taisen Iguchi, and Åke Bergman

Subjects

0301 basic medicine, 03 medical and health sciences, Focus (computing), 030104 developmental biology, Computer science, Path (graph theory), Endocrine system, Toxicology, Data science

Published

2016

2. Roach, Sex, and Gender-Bending Chemicals: The Feminization of Wild Fish in English Rivers

Author

Susan Jobling and Charles R. Tyler

Subjects

medicine.medical_specialty, biology, medicine.drug_class, Feminization (biology), fungi, Zoology, biology.organism_classification, Sperm, Vitellogenin, Endocrinology, Sex steroid, Estrogen, Internal medicine, medicine, biology.protein, Rutilus, Development of the gonads, General Agricultural and Biological Sciences, Hormone

Abstract

Feminization of the male roach, Rutilus rutilus, a freshwater, group-spawning fish, is widespread in English rivers; among the causative agents are natural and synthetic steroidal estrogens and chemicals that mimic estrogens. In feminized male roach, concentrations of the egg-yolk protein vitellogenin are elevated, sex steroid hormone dynamics are altered, and gonad development is disrupted (most notably, a female reproductive duct or developing eggs [oocytes] are present in the testis). In some English rivers containing high levels of estrogens, all male roach sampled have been feminized to varying degrees. In the more severely affected males, individuals produce low-quality sperm with a reduced capability for fertilization. Laboratory studies have shown that the environmental estrogens responsible for inducing gonadal feminization in roach can also alter reproductive behavior, disrupting normal breeding dynamics (parentage) in the zebrafish, another group-spawning fish. Together these findings indicate ...

Published

2008

3. Wild Intersex Roach (Rutilus rutilus) Have Reduced Fertility1

Author

S Coey, K. J. W. Van Look, Nicola Beresford, J G Whitmore, David E. Kime, Geoff Brighty, B.G. McAllister, Alan Henshaw, John P. Sumpter, Susan Jobling, and Charles R. Tyler

Subjects

Milt, endocrine system, biology, Reproductive success, urogenital system, Ecology, media_common.quotation_subject, Zoology, Fertility, Cell Biology, General Medicine, biology.organism_classification, Sperm, medicine.anatomical_structure, Reproductive Medicine, medicine, Gamete, Rutilus, Reproduction, Sperm motility, media_common

Abstract

Endocrine-disrupting chemicals, known to be present in the environment, have great potential for interfering with reproductive health in wildlife and humans. There is, however, little direct evidence that endocrine disruption has adversely affected fertility in any organism. In freshwater and estuarine fish species, for example, although a widespread incidence of intersex has been reported, it is not yet known if intersexuality influences reproductive success. The purpose of this study was, therefore, to determine gamete quality in wild intersex roach (Rutilus rutilus) by assessing sperm characteristics, fertilization success, and ability to produce viable offspring. The results clearly demonstrate that gamete production is reduced in intersex roach. A significantly lower proportion of moderately or severely feminized fish (17.4% and 33.3%, respectively) were able to release milt compared with normal male fish from contaminated rivers (in which 97.6% of the males were able to release milt), reference male fish (97.7%), or less severely feminized intersex fish (experiment 1: 85.8%, experiment 2: 97%). Intersex fish that did produce milt produced up to 50% less (in terms of volume per gram of testis weight) than did histologically normal male fish. Moreover, sperm motility (percentage of motile sperm and curvilinear velocity) and the ability of sperm to successfully fertilize eggs and produce viable offspring were all reduced in intersex fish compared with normal male fish. Male gamete quality (assessed using sperm motility, sperm density, and fertilization success) was negatively correlated with the degree of feminization in intersex fish (r = -0.603; P < 0.001) and was markedly reduced in severely feminized intersex fish by as much as 50% in terms of motility and 75% in terms of fertilization success when compared with either less severely feminized intersex fish or unaffected male fish. This is the first evidence documenting a relationship between the morphological effects (e.g., intersex) of endocrine disruption and the reproductive capabilities of any wild vertebrate. The results suggest that mixtures of endocrine-disrupting substances discharged into the aquatic environment could pose a threat to male reproductive health.

Published

2002

4. Altered Sexual Maturation and Gamete Production in Wild Roach (Rutilus rutilus) Living in Rivers That Receive Treated Sewage Effluents1

Author

Nicola Beresford, John P. Sumpter, Trevor P. Rodgers-Gray, M. Nolan, Geoff Brighty, Charles R. Tyler, and Susan Jobling

Subjects

Milt, endocrine system, medicine.medical_specialty, endocrine system diseases, biology, urogenital system, Zoology, Cell Biology, General Medicine, urologic and male genital diseases, medicine.disease, biology.organism_classification, Sperm, Vitellogenin, Endocrinology, Rainbow darter, Reproductive Medicine, Internal medicine, medicine, biology.protein, Sexual maturity, Disorders of sex development, Rutilus, Development of the gonads

Abstract

Disruption in gonadal development of wild roach living in U.K. rivers receiving large volumes of treated sewage effluent is manifest in a variety of ways, ranging from malformation of the germ cells and/or reproductive ducts to altered gamete production. Intersex fish were also found to have an altered endocrine status and an elevated concentration of plasma vitellogenin. Gonadal growth was inhibited only in severely intersex fish, whereas progression of spermatogenesis was delayed in a large proportion of all intersex and exposed male fish. In contrast to the effects observed in the intersex and exposed male fish, the maturation of ovaries in female fish inhabiting effluent-contaminated rivers appeared to be less obviously affected, although a higher incidence of oocyte atresia was found in the effluent-exposed fish compared with the reference fish. A positive correlation was found between the proportion of female tissue in the gonads of intersex fish and their plasma vitellogenin concentration, suggesting that vitellogenin can be an indicator for the level of gonadal disruption in intersex roach. The estradiol-17β concentration in intersex fish was intermediate between the concentration found in males and females, and the plasma testosterone was between 2- and 3-fold higher in intersex fish compared with male fish. These data suggest a link between altered endocrine status in intersex and female fish and gonadal disruption. Spermiation was also affected in roach living in effluent-impacted rivers: a lower proportion of fish were found releasing sperm, and in those intersex fish that were spermiating, a reduced milt volume and a reduced sperm density were found. All intersex fish had malformations of the reproductive duct(s), and in severely affected fish, the ducts were occluded, thus preventing release of gametes. In view of the widespread occurrence of intersexuality in wild fish populations in rivers throughout the United Kingdom, assessment of the reproductive capabilities of these intersex roach is clearly needed to understand the impact of this phenomenon on roach fertility.

Published

2002