1. Caughley, G, 1966, Mortality patterns in mammals.

BibTeX 
@misc{caughley1966mortality1,
    author = "Caughley, G",
    title = "Mortality patterns in mammals",
    year = "1966",
    howpublished = "Ecology, v. 47, p. 906-918",
    note = "talkorigins\_source = {true}; raw\_reference = {Caughley, G., 1966, Mortality patterns in mammals: Ecology, v. 47, p. 906-918.}"
}

2. Anonymous, 1980, Mount St. Helens protected: Eos, Transactions American Geophysical Union: v. 61, no. 20: p. 458-458.

DOI: 10.1029/eo061i020p00458-03

Abstract

The U.S. Forest Service has declared Mount St. Helens, in Washington state, a ‘geological area.’ This designation is reserved for outstanding earth formations or geological features. The region is thereafter given protection from encroachment by roads or other improvements, and from vandalism. Mount St. Helens is the 15th area in U.S. national forests to be named a geological area. Among the others are Madison River Canyon, Montana, and the Red River Gorge, Kentucky. The designation applies for an indefinite period.

BibTeX 
@article{anonymous1980mount,
    author = "Anonymous",
    title = "Mount St. Helens protected",
    year = "1980",
    journal = "Eos, Transactions American Geophysical Union",
    abstract = "The U.S. Forest Service has declared Mount St. Helens, in Washington state, a ‘geological area.’ This designation is reserved for outstanding earth formations or geological features. The region is thereafter given protection from encroachment by roads or other improvements, and from vandalism. Mount St. Helens is the 15th area in U.S. national forests to be named a geological area. Among the others are Madison River Canyon, Montana, and the Red River Gorge, Kentucky. The designation applies for an indefinite period.",
    url = "https://doi.org/10.1029/eo061i020p00458-03",
    doi = "10.1029/eo061i020p00458-03",
    number = "20",
    pages = "458-458",
    volume = "61"
}

3. Fritz, William J., 1980, Stumps transported and deposited upright by Mount St. Helens mud flows: Geology: v. 8, no. 12: p. 586.

DOI: 10.1130/0091-7613(1980)8<586:stadub>2.0.co;2

BibTeX 
@article{fritz1980stumps,
    author = "Fritz, William J.",
    title = "Stumps transported and deposited upright by Mount St. Helens mud flows",
    year = "1980",
    journal = "Geology",
    url = "https://doi.org/10.1130/0091-7613(1980)8<586:stadub>2.0.co;2",
    doi = "10.1130/0091-7613(1980)8<586:stadub>2.0.co;2",
    number = "12",
    pages = "586",
    volume = "8"
}

4. Fritz, W. J, 1980, Stumps transported and deposited upright by Mount St. Helens mud flows.

BibTeX 
@misc{fritz1980stumps3,
    author = "Fritz, W. J",
    title = "Stumps transported and deposited upright by Mount St. Helens mud flows",
    year = "1980",
    howpublished = "Geology, v. 8, p. 586-588",
    note = "talkorigins\_source = {true}; raw\_reference = {Fritz, W. J., 1980, Stumps transported and deposited upright by Mount St. Helens mud flows: Geology, v. 8, p. 586-588.}"
}

5. Harrison, Sylvia and Fritz, William J., 1982, Depositional features of March 1982 Mount St Helens sediment flows: Nature: v. 299, no. 5885: p. 720-722.

DOI: 10.1038/299720a0

BibTeX 
@article{harrison1982depositional,
    author = "Harrison, Sylvia and Fritz, William J.",
    title = "Depositional features of March 1982 Mount St Helens sediment flows",
    year = "1982",
    journal = "Nature",
    url = "https://doi.org/10.1038/299720a0",
    doi = "10.1038/299720a0",
    number = "5885",
    pages = "720-722",
    volume = "299"
}

6. Frenzen, Peter, 1992, Mount St. Helens: Journal of Forestry: v. 90, no. 5: p. 14-37.

DOI: 10.1093/jof/90.5.14

BibTeX 
@article{frenzen1992mount,
    author = "Frenzen, Peter",
    title = "Mount St. Helens",
    year = "1992",
    journal = "Journal of Forestry",
    url = "https://doi.org/10.1093/jof/90.5.14",
    doi = "10.1093/jof/90.5.14",
    number = "5",
    pages = "14-37",
    volume = "90"
}

7. Austin, Richard T. and England, Anthony W., 1993, Multi‐scale roughness spectra of Mount St. Helens debris flows: Geophysical Research Letters: v. 20, no. 15: p. 1603-1606.

DOI: 10.1029/93gl01875

Abstract

A roughness spectrum allows surface structure to be interpreted as a sum of sinusoidal components with differing wavelengths. Knowledge of the roughness spectrum gives insight into the mechanisms responsible for electromagnetic scattering at a given wavelength. Measured spectra from 10‐year‐old primary debris flow surfaces at Mount St. Helens conform to a power‐law spectral model, suggesting that these surfaces are scaling over the measured range of spatial frequencies. Measured spectra from water‐deposited surfaces deviate from this model.

BibTeX 
@article{austin1993multiscale,
    author = "Austin, Richard T. and England, Anthony W.",
    title = "Multi‐scale roughness spectra of Mount St. Helens debris flows",
    year = "1993",
    journal = "Geophysical Research Letters",
    abstract = "A roughness spectrum allows surface structure to be interpreted as a sum of sinusoidal components with differing wavelengths. Knowledge of the roughness spectrum gives insight into the mechanisms responsible for electromagnetic scattering at a given wavelength. Measured spectra from 10‐year‐old primary debris flow surfaces at Mount St. Helens conform to a power‐law spectral model, suggesting that these surfaces are scaling over the measured range of spatial frequencies. Measured spectra from water‐deposited surfaces deviate from this model.",
    url = "https://doi.org/10.1029/93gl01875",
    doi = "10.1029/93gl01875",
    number = "15",
    pages = "1603-1606",
    volume = "20"
}

8. Schilling, Steve P. and Ramsey, David W. and Messerich, James A. and Thompson, Ren A., 2006, Rebuilding Mount St. Helens: Scientific Investigations Map.

DOI: 10.3133/sim2928

BibTeX 
@misc{schilling2006rebuilding,
    author = "Schilling, Steve P. and Ramsey, David W. and Messerich, James A. and Thompson, Ren A.",
    title = "Rebuilding Mount St. Helens",
    year = "2006",
    booktitle = "Scientific Investigations Map",
    url = "https://doi.org/10.3133/sim2928",
    doi = "10.3133/sim2928"
}

9. Calderazzo, J., 2007, Mount St. Helens: Interdisciplinary Studies in Literature and Environment: v. 14, no. 1: p. 237-240.

DOI: 10.1093/isle/14.1.237

BibTeX 
@article{calderazzo2007mount,
    author = "Calderazzo, J.",
    title = "Mount St. Helens",
    year = "2007",
    journal = "Interdisciplinary Studies in Literature and Environment",
    url = "https://doi.org/10.1093/isle/14.1.237",
    doi = "10.1093/isle/14.1.237",
    number = "1",
    pages = "237-240",
    volume = "14"
}

10. 2020, Mount St. Helens: Out of the Crater: p. 89-103.

DOI: 10.2307/j.ctv173f0jk.14

BibTeX 
@incollection{crossref2020mount,
    title = "Mount St. Helens",
    year = "2020",
    booktitle = "Out of the Crater",
    url = "https://doi.org/10.2307/j.ctv173f0jk.14",
    doi = "10.2307/j.ctv173f0jk.14",
    pages = "89-103"
}

11. Pierson, Thomas C., 2020, Flow behavior of channelized debris flows, Mount St. Helens, Washington: Hillslope Processes: p. 269-296.

DOI: 10.4324/9781003028840-13

BibTeX 
@incollection{pierson2020flow,
    author = "Pierson, Thomas C.",
    title = "Flow behavior of channelized debris flows, Mount St. Helens, Washington",
    year = "2020",
    booktitle = "Hillslope Processes",
    url = "https://doi.org/10.4324/9781003028840-13",
    doi = "10.4324/9781003028840-13",
    pages = "269-296"
}

12. Major, Jon J. and Pierson, Thomas C. and Scott, Kevin M., None, Debris flows at Mount St. Helens, Washington, USA: Springer Praxis Books: p. 685-731.

DOI: 10.1007/3-540-27129-5_27

BibTeX 
@incollection{majorNonedebris,
    author = "Major, Jon J. and Pierson, Thomas C. and Scott, Kevin M.",
    title = "Debris flows at Mount St. Helens, Washington, USA",
    year = "None",
    booktitle = "Springer Praxis Books",
    url = "https://doi.org/10.1007/3-540-27129-5\_27",
    doi = "10.1007/3-540-27129-5\_27",
    pages = "685-731"
}