1. Florkin, M. und Scheer, B. T, 1967, -1979, Chemical Zoology: New York, Academic Press; 11 Bände.
BibTeX
@book{florkin196719792,
author = "Florkin, M. und Scheer, B. T",
title = "-1979, Chemical Zoology",
year = "1967",
publisher = "New York, Academic Press; 11 Bände",
note = "talkorigins\_source = {true}; raw\_reference = {Florkin, M., und Scheer, B. T., 1967-1979, Chemical Zoology: New York, Academic Press; 11 Bände.}"
}
2. Jaskoski, Benedict J., 1968, Chemical Zoology Chemical Zoology, Vol. I, Protozoa George W. Kidder: BioScience: v. 18, no. 11: p. 1068-1068.
BibTeX
@article{jaskoski1968chemical,
author = "Jaskoski, Benedict J.",
title = "Chemical Zoology Chemical Zoology, Vol. I, Protozoa George W. Kidder",
year = "1968",
journal = "BioScience",
url = "https://doi.org/10.2307/1294566",
doi = "10.2307/1294566",
number = "11",
openalex = "W2328180633",
pages = "1068-1068",
volume = "18"
}
3. 1969, Chemical Zoology.
DOI: 10.1016/b978-0-12-395536-4.x5001-4
BibTeX
@misc{crossref1969chemical,
title = "Chemical Zoology",
year = "1969",
url = "https://doi.org/10.1016/b978-0-12-395536-4.x5001-4",
doi = "10.1016/b978-0-12-395536-4.x5001-4",
openalex = "W4247241790"
}
4. 1969, Berichtigung: Chemical Zoology: BioScience: v. 19, no. 1: p. 80-80.
BibTeX
@article{crossref1969erratum,
title = "Erratum: Chemical Zoology",
year = "1969",
journal = "BioScience",
url = "https://doi.org/10.2307/1294650",
doi = "10.2307/1294650",
number = "1",
openalex = "W4230289597",
pages = "80-80",
volume = "19"
}
5. Bonner, Thomas P., 1970, Chemical Zoology. Volume IV: Annelida, Echiura, und Sipuncula. Marcel Florkin, B. T. Scheer: The Quarterly Review of Biology: v. 45, no. 2: p. 206-206.
BibTeX
@article{bonner1970chemical,
author = "Bonner, Thomas P.",
title = "Chemical Zoology. Volume IV: Annelida, Echiura, und Sipuncula. Marcel Florkin, B. T. Scheer",
year = "1970",
journal = "The Quarterly Review of Biology",
url = "https://doi.org/10.1086/406542",
doi = "10.1086/406542",
number = "2",
openalex = "W2511544775",
pages = "206-206",
volume = "45"
}
6. Corliss, John O. und Florkin, Marcel und Scheer, Bradley T., 1970, Chemical Zoology: Transactions of the American Microscopical Society: v. 89, no. 2: p. 344.
BibTeX
@article{corliss1970chemical,
author = "Corliss, John O. und Florkin, Marcel und Scheer, Bradley T.",
title = "Chemical Zoology",
year = "1970",
journal = "Transactions of the American Microscopical Society",
url = "https://doi.org/10.2307/3224410",
doi = "10.2307/3224410",
number = "2",
openalex = "W4251205839",
pages = "344",
volume = "89"
}
7. Pratt, John J., 1972, Chemical Zoology. Volume V. Arthropoda. Part A. Marcel Florkin, Bradley T. Scheer: The Quarterly Review of Biology: v. 47, no. 2: p. 238-238.
BibTeX
@article{pratt1972chemical,
author = "Pratt, John J.",
title = "Chemical Zoology. Volume V. Arthropoda. Part A. Marcel Florkin, Bradley T. Scheer",
year = "1972",
journal = "The Quarterly Review of Biology",
url = "https://doi.org/10.1086/407280",
doi = "10.1086/407280",
number = "2",
openalex = "W2517681791",
pages = "238-238",
volume = "47"
}
8. Bretsky, Sara S., 1973, Chemical Zoology. Volume VII: Mollusca. Marcel Florkin, Bradley T. Scheer: The Quarterly Review of Biology: v. 48, no. 3: p. 515-516.
BibTeX
@article{bretsky1973chemical,
author = "Bretsky, Sara S.",
title = "Chemical Zoology. Volume VII: Mollusca. Marcel Florkin, Bradley T. Scheer",
year = "1973",
journal = "The Quarterly Review of Biology",
url = "https://doi.org/10.1086/407763",
doi = "10.1086/407763",
number = "3",
openalex = "W2509017195",
pages = "515-516",
volume = "48"
}
9. Barrington, E. J. W, 1974, Biochemie primitiver Deuterostomier, in Florkin, M., und Scheer, B. T., Hgg., Chemische Zoologie: London, Academic Press, v. VIII, S. 61-95.
BibTeX
@book{barrington1974biochemistry1,
author = "Barrington, E. J. W",
title = "Biochemie primitiver Deuterostomier, in Florkin, M., und Scheer, B. T., Hgg., Chemische Zoologie",
year = "1974",
publisher = "London, Academic Press, v. VIII, S. 61-95",
note = "talkorigins\_source = {true}; raw\_reference = {Barrington, E. J. W., 1974, Biochemie primitiver Deuterostomier, in Florkin, M., und Scheer, B. T., Hgg., Chemische Zoologie: London, Academic Press, v. VIII, S. 61-95.}"
}
10. Florkin, M. und Scheer, B. T, 1974, Chemical Zoology: London, Academic Press, v. VIII. Deuterostomians, cyclostomes and fishes.
BibTeX
@book{florkin1974chemical3,
author = "Florkin, M. und Scheer, B. T",
title = "Chemical Zoology",
year = "1974",
publisher = "London, Academic Press, v. VIII. Deuterostomians, cyclostomes and fishes",
note = "talkorigins\_source = {true}; raw\_reference = {Florkin, M., und Scheer, B. T., 1974, Chemical Zoology: London, Academic Press, v. VIII. Deuterostomians, cyclostomes and fishes.}"
}
11. Godeaux, J. E. A, 1974, Primitive Deuterostomians, in Florkin, M., and Scheer, B. T., eds., Chemical Zoology: London, Academic Press, v. VIII, p. 4-60.
BibTeX
@book{godeaux1974primitive4,
author = "Godeaux, J. E. A",
title = "Primitive Deuterostomians, in Florkin, M., and Scheer, B. T., eds., Chemical Zoology",
year = "1974",
publisher = "London, Academic Press, v. VIII, p. 4-60",
note = "talkorigins\_source = {true}; raw\_reference = {Godeaux, J. E. A., 1974, Primitive Deuterostomians, in Florkin, M., and Scheer, B. T., eds., Chemical Zoology: London, Academic Press, v. VIII, p. 4-60.}"
}
12. Thomson, Keith Stewart, 1975, Chemical Zoology. Deuterostomians, Cyclostomes, and Fishes. Volume VIII. Marcel Florkin, Bradley T. Scheer: The Quarterly Review of Biology: v. 50, no. 2: p. 212-212.
BibTeX
@article{thomson1975chemical,
author = "Thomson, Keith Stewart",
title = "Chemical Zoology. Deuterostomians, Cyclostomes, and Fishes. Volume VIII. Marcel Florkin, Bradley T. Scheer",
year = "1975",
journal = "The Quarterly Review of Biology",
url = "https://doi.org/10.1086/408506",
doi = "10.1086/408506",
number = "2",
openalex = "W2510364228",
pages = "212-212",
volume = "50"
}
13. Gans, Carl, 1976, Chemical Zoology. Marcel Florkin, Bradley T. Scheer: The Quarterly Review of Biology: v. 51, no. 3: p. 446-446.
BibTeX
@article{gans1976chemical,
author = "Gans, Carl",
title = "Chemical Zoology. Marcel Florkin, Bradley T. Scheer",
year = "1976",
journal = "The Quarterly Review of Biology",
url = "https://doi.org/10.1086/409534",
doi = "10.1086/409534",
number = "3",
openalex = "W2512043142",
pages = "446-446",
volume = "51"
}
14. 1979, Chemical Zoology. Volume XI: Mammalia. Marcel Florkin, Bradley T. Scheer: The Quarterly Review of Biology: v. 54, no. 4: p. 469-469.
BibTeX
@article{crossref1979chemical,
title = "Chemical Zoology. Volume XI: Mammalia. Marcel Florkin, Bradley T. Scheer",
year = "1979",
journal = "The Quarterly Review of Biology",
url = "https://doi.org/10.1086/411534",
doi = "10.1086/411534",
number = "4",
openalex = "W4249487426",
pages = "469-469",
volume = "54"
}
15. Mayer, William V., 1980, Chemical Zoology Finale Chemical Zoology, Volume XI: Mammalia Marcel Florkin Bradley T. Scheer: BioScience: v. 30, no. 3: p. 186-186.
BibTeX
@article{mayer1980chemical,
author = "Mayer, William V.",
title = "Chemical Zoology Finale Chemical Zoology, Volume XI: Mammalia Marcel Florkin Bradley T. Scheer",
year = "1980",
journal = "BioScience",
url = "https://doi.org/10.2307/1308039",
doi = "10.2307/1308039",
number = "3",
openalex = "W2313890967",
pages = "186-186",
volume = "30"
}
16. Sohail, Muhammad und Nematollahi, Mohammad Ali und Suleman, Sardar und Habib, Syed Sikandar, 2026, Chemische Kontaminanten und Fische: Implikationen für Gesundheit und Ökosystem-Nachhaltigkeit.: Environmental monitoring and assessment.
DOI: 10.1007/s10661-026-15351-9 Quelle
Zusammenfassung
Chemische Schadstoffe in aquatischen Ökosystemen stellen eine erhebliche und wachsende Bedrohung für die Fischgesundheit und die allgemeine Ökosystem-Nachhaltigkeit dar. Diese Übersicht hebt aktuelle Erkenntnisse über die ökotoxikologischen Auswirkungen wichtiger aquatischer Kontaminanten hervor, einschließlich industrieller Abwässer, die häufig Schwermetalle (HMs) zusammen mit Agrochemikalien, Pharmazeutika und Pflegeprodukten für die persönliche Anwendung (PPCPs) enthalten, auf Fischarten. Besonderes Augenmerk liegt auf den zugrunde liegenden Mechanismen der Toxizität, wie Immuntoxizität, die die Anfälligkeit für Infektionen erhöht, und Neurotoxizität, die das Verhalten und die Vermeidung von Räubern verändert und letztendlich die Fischüberlebensrate verringert. Darüber hinaus werden neu auftretende Kontaminanten, einschließlich Mikroplastik und Nanomaterialrückstände, kritisch untersucht aufgrund ihres potenziellen Beitrags zum Biodiversitätsverlust und zur Ökosysteminstabilität. Die Übersicht diskutiert zudem fortschrittliche Bewertungswerkzeuge, wie biomarkerbasierte Ansätze, Omics-Technologien, maschinelles Lernen und Hochdurchsatz-Screening-Techniken, die innovative Strategien zur Bewertung und Minderung toxikologischer Auswirkungen bieten. Durch die Integration interdisziplinärer Perspektiven bietet diese Übersicht einen umfassenden Rahmen, um regulatorische Politiken zu unterstützen und nachhaltige Managementpraktiken zu fördern, die darauf abzielen, die aquatische Biodiversität zu schützen und die Ökosystemgesundheit aufrechtzuerhalten.
BibTeX
@article{doi101007s10661026153519,
author = "Sohail, Muhammad und Nematollahi, Mohammad Ali und Suleman, Sardar und Habib, Syed Sikandar",
title = "Chemical contaminants and fish: implications for health and ecosystem sustainability.",
year = "2026",
journal = "Environmental monitoring and assessment",
abstract = "Chemical pollutants in aquatic ecosystems pose a significant and growing threat to fish health and overall ecosystem sustainability. This review highlights recent findings on the ecotoxicological effects of major aquatic contaminants, including industrial effluents often containing heavy metals (HMs) along with agrochemicals, pharmaceuticals, and personal-care products (PPCPs) on fish species. Particular emphasis is placed on the underlying mechanisms of toxicity, such as immunotoxicity, which increases susceptibility to infections, and neurotoxicity, which alters behavior and predator avoidance, ultimately reducing fish survival. In addition, emerging contaminants, including microplastics and nanomaterial residues, are critically examined due to their potential role in biodiversity loss and ecosystem instability. The review also discusses advanced assessment tools, such as biomarker-based approaches, omics technologies, machine learning models, and high-throughput screening techniques, which provide innovative strategies for evaluating and mitigating toxicological impacts. By integrating interdisciplinary perspectives, this review provides a comprehensive framework to support regulatory policies and promote sustainable management practices aimed at protecting aquatic biodiversity and maintaining ecosystem health.",
url = "https://pubmed.ncbi.nlm.nih.gov/42032415/",
doi = "10.1007/s10661-026-15351-9",
openalex = "W7155529820",
pmid = "42032415",
references = "doi101007s0001801622230, doi101016jaquatox201010006, doi101016jcellsig201201008, doi101016jchemosphere201709113, doi101016jjhazmat200408009, doi101016jreprotox201610001, doi101111brv12480, doi103109026567362014971446, doi103389fphar201400196, doi103390ijerph18020468"
}