User:Kuzey Gunesli/Choose an Article

Article Selection
Please list articles that you're considering for your Wikipedia assignment below. Begin to critique these articles and find relevant sources.

Option 1 (Second highest interest)

 * Article title
 * Babb Creek
 * Article Evaluation
 * The article's content is relevant to the topic and is written from a neutral standpoint. Each claim, except one image, is referenced. The references are primarily reliable as they are from sources such as the USGS and Google Earth. The article does not tackle one of Wikipedia's equity gaps. The article needs work in terms of it's history as there have been documented events of contamination from a nearby coal mine following successful aquatic remediation efforts.


 * Sources
 * Martino, Louis E. (2018). Bio-Geotechnologies for Mine Site Rehabilitation. Elsevier. pp. 571–573. ISBN 9780128129876
 * Reed, Lloyd A. (1980). Effects of Strip Mining the Abandoned Deep Anna S Mine on the Hydrology of Babb Creek, Tioga County, Pennsylvania. U.S. Geological Survey Water Resources Division. pp. 2–40
 * Hedin, Robert (16 June 2010). "Passive Treatment of Acidic Coal Mine Drainage: The Anna S Mine Passive Treatment Complex". Mine Water and the Environment. 29: 165–175 – via SpringerLink
 * Section 319 nonpoint source program success story, installing active and passive treatment system restores water quality, Washington, DC, 2009, USEPA Office of Water Report EPA 841-F-09-001RR

Option 2 (Highest interest, but harder)

 * Article title
 * Mycoremediation
 * Article Evaluation
 * The article's content is relevant to the topic and is written from a neutral standpoint. Most of the claims are referenced, but citations are needed for some terms. The citations seems to be from peer reviewed journals and are reliable. The article does not tackle one of Wikipedia's equity gaps. The article could include some case studies that utilize mycoremediation to further increase the understanding of the reader, alongside an individual section for petroleum contamination instead of bundling it with organic pollutants and the advantages of mycoremediation in extreme environments (extreme cold, radiation, etc.).


 * Sources
 * Adedokun, O. M., & Ataga, A. E. (2014). Oil spills remediation using native mushroom—a viable option. Research Journal of Environmental Sciences, 8(1), 57. https://doi.org/10.3923/rjes.2014.57.61
 * Blasi, B., Poyntner, C., Rudavsky, T., Prenafeta-Boldú, F. X., de Hoog, S., Tafer, H., & Sterflinger, K. (2016). Pathogenic Yet Environmentally Friendly? Black Fungal Candidates for Bioremediation of Pollutants. Geomicrobiology Journal, 33(3–4), 308–317. https://doi.org/10.1080/01490451.2015.1052118
 * Martorell, M. M., Ruberto, L. A. M., de Castellanos, L. I. F., & Cormack, W. P. M. (2019). Bioremediation Abilities of Antarctic Fungi. In S. M. Tiquia-Arashiro & M. Grube (Eds.), Fungi in Extreme Environments: Ecological Role and Biotechnological Significance (pp. 517–534). Springer International Publishing. https://doi.org/10.1007/978-3-030-19030-9_26
 * Tkavc, R., Matrosova, V. Y., Grichenko, O. E., Gostinčar, C., Volpe, R. P., Klimenkova, P., Gaidamakova, E. K., Zhou, C. E., Stewart, B. J., Lyman, M. G., Malfatti, S. A., Rubinfeld, B., Courtot, M., Singh, J., Dalgard, C. L., Hamilton, T., Frey, K. G., Gunde-Cimerman, N., Dugan, L., & Daly, M. J. (2018). Prospects for Fungal Bioremediation of Acidic Radioactive Waste Sites: Characterization and Genome Sequence of Rhodotorula taiwanensis MD1149. Frontiers in Microbiology, 8. https://doi.org/10.3389/fmicb.2017.02528
 * YANG, S.-Z., JIN, H.-J., WEI, Z., HE, R.-X., JI, Y.-J., LI, X.-M., & YU, S.-P. (2009). Bioremediation of Oil Spills in Cold Environments: A Review. Pedosphere, 19(3), 371–381. https://doi.org/10.1016/S1002- 0160(09)60128-4
 * Prakash, D., Gabani, P., Chandel, A. K., Ronen, Z., & Singh, O. V. (2013). Bioremediation: A genuine technology to remediate radionuclides from the environment. Microbial Biotechnology, 6(4), 349–360. https://doi.org/10.1111/1751-7915.12059

Option 3

 * Article title
 * Chena Hot Springs
 * Article Evaluation
 * The article's content is relevant to the topic and is written from a fairly neutral standpoint. Most of the claims are referenced but some need to be cited. The sources are mainly not peer reviewed, therefore they could be improved. The article does not tackle one of Wikipedia's equity gaps. The article can be improved by improving the sections on geothermal power, adding a section on the geology of the springs, thermal characteristics, and and the occurrence of yugawaralite. (I apologize for the bolding, I tried to remove it but I was unable).
 * Sources
 * At, K. G. P. P., Llc, C. P., Title, P., Power, C., & Plant, G. P. (n.d.). AWARD NAME: Alaska Energy Cost Reduction Solicitation. Eberlein, G. D., Erd, R. C., Weber, F., & Beatty, L. B. (1971). New Occurrence Of Yugawaralite From The Chena Hot Springs Area, Alaska1. American Mineralogist, 56(9–10), 1699–1717.  Erkan, K., Holdman, G., Blackwell, D., & Benoit, W. (n.d.). Thermal Characteristics of the Chena Hot Springs Alaska Geothermal System. 8.  Kolker, A., Newberry, R., Layer, P., Larsen, J., & Stepp, P. (n.d.). Geologic Setting of the Chena Hot Springs Geothermal System, Alaska. 8.
 * At, K. G. P. P., Llc, C. P., Title, P., Power, C., & Plant, G. P. (n.d.). AWARD NAME: Alaska Energy Cost Reduction Solicitation. Eberlein, G. D., Erd, R. C., Weber, F., & Beatty, L. B. (1971). New Occurrence Of Yugawaralite From The Chena Hot Springs Area, Alaska1. American Mineralogist, 56(9–10), 1699–1717.  Erkan, K., Holdman, G., Blackwell, D., & Benoit, W. (n.d.). Thermal Characteristics of the Chena Hot Springs Alaska Geothermal System. 8.  Kolker, A., Newberry, R., Layer, P., Larsen, J., & Stepp, P. (n.d.). Geologic Setting of the Chena Hot Springs Geothermal System, Alaska. 8.

Option 4

 * Article title
 * Article Evaluation
 * Sources
 * Sources
 * Sources

Option 5

 * Article title
 * Article Evaluation
 * Sources
 * Sources
 * Sources