Amphibian Distribution and Habitats in Northwestern Saudi Arabia
Abstract
Keywords
Full Text:
PDFReferences
Alatawi A. S. (2022), «Conservation action in Saudi Arabia: Challenges and opportunities», Saudi J. Biol. Sci., 29(5), 3466 – 3472.
Alatawi A. S., Gilbert F., and Reader T. (2020), «Modelling terrestrial reptile species richness, distributions and habitat suitability in Saudi Arabia», J. Arid Environm., 178, 104153.
Al-Jawdah H. (2019), Ecological Survey for Amphibians of North Western Region in Saudi Arabia. Submitted in Partial Fulfillment of the Requirements for the Master’s Degree in the Department of Zoology at College of Science, King Saud University [in Arabic].
Al-Johany A. M., Al-Qarni S. S., and Hasayen K. A. (2014), «Distribution and habitats of amphibians in the central region of Saudi Arabia», Herpetol. Conserv. Biol., 9(3), 601 – 608.
Aloufi A. A. and Amr Z. S. (2015), «On the herpetofauna of the Province of Tabuk, northwest Saudi Arabia (Amphibia, Reptilia)», Herpetozoa, 27, 147 – 158.
Aloufi A. A., Amr Z. S., and Abu Baker M. (2021), «Reptiles and amphibians of Al Madinah Al Munawwarah province, Saudi Arabia», Russ. J. Herpetol., 28(3), 123 – 137.
Aloufi A. A., Amr Z. S., Abu Baker M. A., and Hamidan N. (2019), «Diversity and conservation of terrestrial, freshwater and marine reptiles and amphibians in Saudi Arabia», Amphib. Reptile Conserv., 13(2), 181 – 202.
Al-Qahtani A. R. and Al-Johany A. M. (2018), «Amphibians distribution and habitats in the southwestern region of Saudi Arabia», Saudi J. Biol. Sci., 25(7), 1380 – 1386.
AlRashidi M., Abdelgadir M., and Shobrak M. (2021), «Habitat selection by the Spiny-tailed lizard (Uromastyx aegyptia): A view from spatial analysis», Saudi J. Biol. Sci., 28(9), 5034 – 5041.
Alshammari A. M. and Ibrahim A. A. (2018), «Amphibians of the Ha’il region, Saudi Arabia, with special reference to their habitat and distribution», Adv. Biores., 9(1), 165 – 172.
Balletto E., Cherchi M. A., and Gasperetti J. (1985), «Amphibians of the Arabian Peninsula», Fauna of Saudi Arabia, 7, 318 – 392.
Bini L. M., Diniz-Filho J. F., Rangel T. B., Bastos R. P., and Pinto M. P. (2006), «Challenging Wallacean and Linnean shortfalls: knowledge gradients and conservation planning in a biodiversity hotspot», Divers. Distrib., 12(5), 475 – 482.
Bishop P. J., Angulo A., Lewis J. P., Moore R. D., Rabb G. B., and Moreno J. G. (2012), «The amphibian extinction crisis-what will it take to put the action into the amphibian conservation action plan?» S.A.P.I.EN.S., 5(2), 97 – 111.
Catenazzi A. (2015), «State of the world’s amphibians», Ann. Rev. Environ. Resour., 40, 91 – 119.
Ceballos G., Ehrlich P. R., and Raven P. H. (2020), «Vertebrates on the brink as indicators of biological annihilation and the sixth mass extinction», Proc. Natl. Acad. Sci. U.S.A., 117(24), 13596 – 13602.
Dufresnes C., Mazepa G., Jablonski D., Oliveira R. C., Wenseleers T., et al. (2019), «Fifteen shades of green: the evolution of Bufotes toads revisited», Mol. Phylogen. Evol., 141, 106615.
Farag A. A. and Banaja A. A. (1980), «Amphibians and reptiles from the western region of Saudi Arabia», Bull. Fac. Sci. K.A.U., 4, 5 – 29.
Hamdi A. A. and Fathy S. M. (2021), «A survey of amphibian fauna in Jazan region, Saudi Arabia», Egypt. Acad. J. Biol. Sci., 13(2), 23 – 32.
Hasanean H. and Almazroui M. (2015), «Rainfall: features and variations over Saudi Arabia, a review», Climate, 3(3), 578 – 626.
Kaky E. (2020), «Potential habitat suitability of Iraqi amphibians under climate change», Biodiversitas, 21(2), 731 – 742.
Kaky E., Alatawi A. S., Jaf A. A., and Gilbert F. (2022), «Predicting current and future habitat refuges for conservation of wild goat (Capra aegagrus Erxleben 1777) under climate change in Iraq», J. Arid Environm., 199, 104699.
Kaky E., Nolan V., Alatawi A., and Gilbert F. (2020), «A comparison between ensemble and MaxEnt species distribution modelling approaches for conservation: a case study with Egyptian medicinal plants», Ecol. Inf., 60, 101150.
Khattab N., Saber S., El-Salkh B., and Said R. (2021), «The Efficiency of Sclerophrys regularis (Anura: Bufonidae) as a bioindicator for habitat destruction», Egypt. Acad. J. Biol. Sci., 13(1), 91 – 101.
National Center for Meteorology (2022), https://ncm.gov. sa/ar/Pages/default.aspx (accessed September 28, 2022).
Nolan V., Kaky E., Alatawi A. S., and Gilbert F. (2022), «Mapping the Indian crested porcupine across Iraq: the benefits of species distribution modelling when species data are scarce», Mammal. Biol., 105, 1851 – 1866.
Oliveira U., Paglia A. P., Brescovit A. D., et al. (2016), «The strong influence of collection bias on biodiversity knowledge shortfalls of Brazilian terrestrial biodiversity», Divers. Distrib., 22(12), 1232 – 1244.
R Development Core Team (2022), R: a Language and Environment for Statistical Computing, R Foundation for Statistical Computing, Vienna, Austria.
Saber S., Tito W., Said R., Mengistou S., and Alqahtani A. (2017), «Amphibians as bioindicators of the health of some wetlands in Ethiopia», Egypt. J. Hospital Med., 66, 66 – 73.
Schätti B. and Gasperetti J. (1994), «A contribution to the herpetofauna of southwest Arabia», Fauna of Saudi Arabia, 14, 348 – 423.
Soorae P., Els J., Gardner D., and El Alqamy H. (2013), «Distribution and ecology of the Arabian and Dhofar Toads (Duttaphrynus arabicus and D. dhufarensis) in the United Arab Emirates and adjacent areas of northern Oman», Zool. Middle East, 59(3), 229 – 234.
Wake D. B. and Vredenburg V. T. (2008), «Colloquium paper: Are we in the midst of the sixth mass extinction? A view from the world of amphibians», Proc. Natl. Acad. Sci. U.S.A., 105, 11466 – 11473.
DOI: https://doi.org/10.30906/1026-2296-2024-31-1-39-46
Refbacks
- There are currently no refbacks.
You can subscribe to the print or electronic version of the journal on the site of EastView Company. If you have any questions, please write to the email sales@ivis.ru