Pakistan bibliography — TalkOrigins Archive

1. Johnson, M. A. and Belderson, R. H., 1969, The Tidal Origin of Some Vertical Sedimentary Changes in Epicontinental Seas: The Journal of Geology: v. 77, no. 3: p. 353-357.

DOI: 10.1086/627442

BibTeX

@article{johnson1969the,
    author = "Johnson, M. A. and Belderson, R. H.",
    title = "The Tidal Origin of Some Vertical Sedimentary Changes in Epicontinental Seas",
    year = "1969",
    journal = "The Journal of Geology",
    url = "https://doi.org/10.1086/627442",
    doi = "10.1086/627442",
    number = "3",
    pages = "353-357",
    volume = "77"
}

2. Drewry, David J., 1975, Probing the Arctic Ocean and its epicontinental seas: Polar Record: v. 17, no. 111: p. 700-701.

DOI: 10.1017/s0032247400032861

BibTeX

@article{drewry1975probing,
    author = "Drewry, David J.",
    title = "Probing the Arctic Ocean and its epicontinental seas",
    year = "1975",
    journal = "Polar Record",
    url = "https://doi.org/10.1017/s0032247400032861",
    doi = "10.1017/s0032247400032861",
    number = "111",
    pages = "700-701",
    volume = "17"
}

3. Gingerich, P D and Wells, N A and Russell, D E and Shah, S M, 1983, Origin of whales in epicontinental remnant seas: new evidence from the early eocene of pakistan.: Science (New York, N.Y.).

DOI: 10.1126/science.220.4595.403 Source

Abstract

Pakicetus inachus from the early Eocene of Pakistan is the oldest and most primitive cetacean known. The dentition of Pakicetus resembles that of carnivorous mesonychid land mammals as well as middle Eocene cetaceans. The otic region of the cranium lacks characteristic specializations of whales necessary for efficient directional hearing under water. Pakicetus occurs with a land-mammal fauna in fluvial sediments bordering epicontinental Eocene remnants of the eastern Tethys seaway. Discovery of Pakicetus strengthens earlier inferences that whales originated from terrestrial carnivorous mammals and suggests that whales made a gradual transition from land to sea in the early Eocene, spending progressively more time feeding on planktivorous fishes in shallow, highly productive seas and embayments associated with tectonic closure of eastern Tethys.

BibTeX

@article{doi101126science2204595403,
    author = "Gingerich, P D and Wells, N A and Russell, D E and Shah, S M",
    title = "Origin of whales in epicontinental remnant seas: new evidence from the early eocene of pakistan.",
    year = "1983",
    journal = "Science (New York, N.Y.)",
    abstract = "Pakicetus inachus from the early Eocene of Pakistan is the oldest and most primitive cetacean known. The dentition of Pakicetus resembles that of carnivorous mesonychid land mammals as well as middle Eocene cetaceans. The otic region of the cranium lacks characteristic specializations of whales necessary for efficient directional hearing under water. Pakicetus occurs with a land-mammal fauna in fluvial sediments bordering epicontinental Eocene remnants of the eastern Tethys seaway. Discovery of Pakicetus strengthens earlier inferences that whales originated from terrestrial carnivorous mammals and suggests that whales made a gradual transition from land to sea in the early Eocene, spending progressively more time feeding on planktivorous fishes in shallow, highly productive seas and embayments associated with tectonic closure of eastern Tethys.",
    url = "https://pubmed.ncbi.nlm.nih.gov/17831411/",
    doi = "10.1126/science.220.4595.403",
    pmid = "17831411"
}

4. Gingerich, Philip D. and Wells, Neil A. and Russell, Donald E. and Shah, S. M. Ibrahim, 1983, Origin of Whales in Epicontinental Remnant Seas: New Evidence from the Early Eocene of Pakistan: Science: v. 220, no. 4595: p. 403-406.

DOI: 10.1126/science.220.4595.403

Abstract

Pakicetus inachus from the early Eocene of Pakistan is the oldest and most primitive cetacean known. The dentition of Pakicetus resembles that of carnivorous mesonychid land mammals as well as middle Eocene cetaceans. The otic region of the cranium lacks characteristic specializations of whales necessary for efficient directional hearing under water. Pakicetus occurs with a land-mammal fauna in fluvial sediments bordering epicontinental Eocene remnants of the eastern Tethys seaway. Discovery of Pakicetus strengthens earlier inferences that whales originated from terrestrial carnivorous mammals and suggests that whales made a gradual transition from land to sea in the early Eocene, spending progressively more time feeding on planktivorous fishes in shallow, highly productive seas and embayments associated with tectonic closure of eastern Tethys.

BibTeX

@article{gingerich1983origin,
    author = "Gingerich, Philip D. and Wells, Neil A. and Russell, Donald E. and Shah, S. M. Ibrahim",
    title = "Origin of Whales in Epicontinental Remnant Seas: New Evidence from the Early Eocene of Pakistan",
    year = "1983",
    journal = "Science",
    abstract = "Pakicetus inachus from the early Eocene of Pakistan is the oldest and most primitive cetacean known. The dentition of Pakicetus resembles that of carnivorous mesonychid land mammals as well as middle Eocene cetaceans. The otic region of the cranium lacks characteristic specializations of whales necessary for efficient directional hearing under water. Pakicetus occurs with a land-mammal fauna in fluvial sediments bordering epicontinental Eocene remnants of the eastern Tethys seaway. Discovery of Pakicetus strengthens earlier inferences that whales originated from terrestrial carnivorous mammals and suggests that whales made a gradual transition from land to sea in the early Eocene, spending progressively more time feeding on planktivorous fishes in shallow, highly productive seas and embayments associated with tectonic closure of eastern Tethys.",
    url = "https://doi.org/10.1126/science.220.4595.403",
    doi = "10.1126/science.220.4595.403",
    number = "4595",
    pages = "403-406",
    volume = "220"
}

5. Gingerich, P. D. and Wells, N. A. and Russell, D. E. and Ibrahim Shah, S. M, 1983, Origin of whales in epicontinental remnant seas.

BibTeX

@misc{gingerich1983origin1,
    author = "Gingerich, P. D. and Wells, N. A. and Russell, D. E. and Ibrahim Shah, S. M",
    title = "Origin of whales in epicontinental remnant seas",
    year = "1983",
    howpublished = "new evidence from the early Eocene of Pakistan: Science, v. 220, p. 403-406",
    note = "talkorigins\_source = {true}; raw\_reference = {Gingerich, P. D., Wells, N. A., Russell, D. E., and Ibrahim Shah, S. M., 1983, Origin of whales in epicontinental remnant seas: new evidence from the early Eocene of Pakistan: Science, v. 220, p. 403-406.}"
}

6. Kauffman, Erle G., 1984, Dynamics of Cretaceous Epicontinental Seas: ABSTRACT: AAPG Bulletin: v. 68.

DOI: 10.1306/ad4619cb-16f7-11d7-8645000102c1865d

BibTeX

@article{kauffman1984dynamics,
    author = "Kauffman, Erle G.",
    title = "Dynamics of Cretaceous Epicontinental Seas: ABSTRACT",
    year = "1984",
    journal = "AAPG Bulletin",
    url = "https://doi.org/10.1306/ad4619cb-16f7-11d7-8645000102c1865d",
    doi = "10.1306/ad4619cb-16f7-11d7-8645000102c1865d",
    volume = "68"
}

7. 2005, Epicontinental Seas (or Epicontinental Marginal Seas): Van Nostrand's Scientific Encyclopedia.

DOI: 10.1002/0471743984.vse2992

BibTeX

@misc{crossref2005epicontinental,
    title = "Epicontinental Seas (or Epicontinental Marginal Seas)",
    year = "2005",
    booktitle = "Van Nostrand's Scientific Encyclopedia",
    url = "https://doi.org/10.1002/0471743984.vse2992",
    doi = "10.1002/0471743984.vse2992"
}

8. Dean, Christopher David and Allison, Peter A. and Hampson, Gary J. and Lunt, Dan J. and Avdis, Alexandros and Markwick, Paul J., 2016, SPATIAL ARAGONITE BIAS IN EPICONTINENTAL SEAS: Geological Society of America Abstracts with Programs.

DOI: 10.1130/abs/2016am-286475

BibTeX

@inproceedings{anddean2016spatial,
    author = "Dean, Christopher David and Allison, Peter A. and Hampson, Gary J. and Lunt, Dan J. and Avdis, Alexandros and Markwick, Paul J.",
    title = "SPATIAL ARAGONITE BIAS IN EPICONTINENTAL SEAS",
    year = "2016",
    booktitle = "Geological Society of America Abstracts with Programs",
    url = "https://doi.org/10.1130/abs/2016am-286475",
    doi = "10.1130/abs/2016am-286475"
}

9. 2020, 7. The Future of Workplace Spirituality: Spirituality, Inc.: p. 153-176.

DOI: 10.18574/nyu/9780814765104.003.0010

BibTeX

@incollection{crossref20207,
    title = "7. The Future of Workplace Spirituality",
    year = "2020",
    booktitle = "Spirituality, Inc.",
    url = "https://doi.org/10.18574/nyu/9780814765104.003.0010",
    doi = "10.18574/nyu/9780814765104.003.0010",
    pages = "153-176"
}

10. Egelston, Anne, 2022, Oceans, Seas, and Whales: AESS Interdisciplinary Environmental Studies and Sciences Series: p. 49-68.

DOI: 10.1007/978-3-031-06990-1_4

BibTeX

@incollection{egelston2022oceans,
    author = "Egelston, Anne",
    title = "Oceans, Seas, and Whales",
    year = "2022",
    booktitle = "AESS Interdisciplinary Environmental Studies and Sciences Series",
    url = "https://doi.org/10.1007/978-3-031-06990-1\_4",
    doi = "10.1007/978-3-031-06990-1\_4",
    pages = "49-68"
}

11. Bayer, Ulf and Altheimer, Ewald and Deutschle, Walter, None, Environmental evolution in shallow epicontinental seas: Lecture Notes in Earth Sciences: p. 347-381.

DOI: 10.1007/bfb0009851

BibTeX

@incollection{bayerNoneenvironmental,
    author = "Bayer, Ulf and Altheimer, Ewald and Deutschle, Walter",
    title = "Environmental evolution in shallow epicontinental seas",
    year = "None",
    booktitle = "Lecture Notes in Earth Sciences",
    url = "https://doi.org/10.1007/bfb0009851",
    doi = "10.1007/bfb0009851",
    pages = "347-381"
}