Impact of elevation and slope aspect on floristic composition in wadi Elkor, Sarawat Mountain, Saudi Arabia

Cunningham, S. C. et al. Balancing the environmental benefits of reforestation in agricultural regions. Perspect. Plant Ecol. Evol. Syst. 17, 301–317. https://doi.org/10.1016/j.ppees.2015.06.001 (2015).

Article 

Google Scholar 

Pearse, I. S. & Hipp, A. L. Phylogenetic and trait similarity to a native speciespredict herbivory on non-native oaks. Proc. Natl. Acad. Sci. U. S. A. 106, 18097–18102 (2009).

ADS 
CAS 
PubMed 
PubMed Central 
Article 

Google Scholar 

Abdel Khalik, K., El-Sheikh, M. & El-Aidarous, A. Floristic diversity and vegetation analysisof wadi Al Noman, Holy Mecca, Saudi Arabia. Turk. J. Bot. 37, 894–907. https://doi.org/10.3906/bot-1209-56 (2013).

Article 

Google Scholar 

Al-Sherif, E. A., Ayesh, A. M. & Rawi, S. M. Floristic composition, life form and chorology of plant life at Khulais region western Saudi Arabia. Pak. J. Bot. 45, 29–38 (2013).

Google Scholar 

Al-Sherif, E. A. & Fadl, M. A. Floristic study of the Al-Shafa Highlands in Taif, western Saudi Arabia. Flora 225, 20–29. https://doi.org/10.1016/j.flora.2016.09.004 (2016).

Article 

Google Scholar 

Al-Nafie, A. H. Phytogeography of Saudi Arabia. Saudi J. Biol. Sci. 15, 159–176 (2008).

Google Scholar 

Mossa, J. S., Al-Yahya, M. A. & Al-Meshal, I. A. Medicinal Plants of Saudi Arabia (King Saud University Press, 1987).

Google Scholar 

Körner, C. Why are there global gradients in species richness? Mountains might hold the answer. Trends Ecol. Evol. 15, 513–514. https://doi.org/10.1016/S01695347(00)02004-8 (2000).

Article 

Google Scholar 

Cano-Ortiz, A., Musarella, C. M., PiNar Fuentes, J. C., Gomes, C. J. P. & Cano, E. Distribution patterns of endemic flora to define hotspots on Hispaniola. Syst. Biodiv. 14, 261–275. https://doi.org/10.1080/14772000.2015.1135195 (2016).

Article 

Google Scholar 

Hedberg, O. The flora of Ethiopia: a progress report. in Research in Ethiopia Flora (ed. Hedberg, I.). Symb. Bot. Ups. 26, 17–18 (1986).

Cowling, R. M., Esler, K. J., Midgley, G. F. & Honing, M. A. Plant functional diversity, species diversity and climate in arid and semi-arid southern Africa. J. Arid Environ. 27, 141–158. https://doi.org/10.1006/jare.1994.1054 (1994).

ADS 
Article 

Google Scholar 

Montana, C. & Valientebanuet, A. Floristic and life-form diversity along an altitudinal gradient in an intertropical semiarid Mexican region. Southwest. Nat. 43, 25–39 (1998).

Google Scholar 

Pavón, N. P., Hernández-Trejo, H. & Rico-Gray, V. Distribution of plant lifeforms along an altitudinal gradient in the semi-arid valley of Zapotitlón, Mexico. J. Veg. Sci. 11, 39–42. https://doi.org/10.2307/3236773 (2000).

Article 

Google Scholar 

Raunkiaer, C. Statistik der Lebensformen als Grundlage für die biologische Pflanzengeographie. Beih. Bot. Centralbl. 27, 171–206 (1910).

Google Scholar 

Sarmiento, G. & Monasterio, M. Life form and phenology. In Tropical Savannas (ed. Bourlièrre, F.) 79–108 (Elsevier, 1983).

Google Scholar 

Meher-Homji, V. M. Environmental implications of life-form spectra from India. J. Econ. Tax. Bot. 2, 23–30 (1981).

Google Scholar 

Campbell, B. M. & Werger, M. J. A. Plant form in mountains of the Cape, South Africa. J. Ecol. 76, 637–653 (1988).

Article 

Google Scholar 

Komárková, V. & McKendrick, J.D. Patterns in vascular plant growth forms in arctic communities and environment at Atkasook, Alaska. in Plant Form and Vegetation Structure (eds. Werger, M. J. A., van der Aart, P. J. M., During, H. J. & Verhoeven, J. T. A.) 45–70 (SPB Academic Publishing BV, 1988).

Google Scholar 

Cody, M. L. Growth-form diversity and community structure in desert plants. J. Arid Environ. 17, 199–209 (1989).

ADS 
Article 

Google Scholar 

Danin, A. & Orshan, G. The distribution of Raunkiaer life forms in Israel in relation to the environment. J. Veg. Sci. 1, 41–48 (1990).

Article 

Google Scholar 

Osman, A. K., Al-Ghamdi, F. & Bawadekji, A. Floristic diversity and vegetation analysis of Wadi Arar: a typical desert Wadi of the Northern Border region of Saudi Arabia. Saud. J. Biol. Sci. 21, 554–565. https://doi.org/10.1016/j.sjbs.2014.02.001 (2014).

Article 

Google Scholar 

Grime, J. P. Plant Strategies and Vegetation Processes (John Wiley, 1979).

Google Scholar 

Palmer, M. W. The coexistence of species in fractal landscapes. Am. Nat. 139, 375–397 (1992).

Article 

Google Scholar 

Huston, M. & DeAngelis, D. L. Competition and coexistence: the effects of resource transport and supply rates. Am. Nat. 144, 954–977. https://doi.org/10.1086/285720 (1994).

Article 

Google Scholar 

Szaro, R. C. Riparian forest and scrubland communities of Arizona and New Mexico. Desert Plants 9, 69–138 (1989).

Google Scholar 

DeBano, L. F. & Schimdt, L. J. Potential for enhancing riparian habitat in the Southwestern United States with watershed practices. For. Ecol. Manag. 33(34), 385–403. https://doi.org/10.1016/0378-1127(90)90205-P (1990).

Article 

Google Scholar 

Lieberman, D., Lieberman, M., Peralta, R. & Hartshorn, G. S. Tropical forest structure and composition on a large-scale altitudinal gradient in Costa Rica. J. Ecol. 84, 137–152. https://doi.org/10.2307/2261350 (1996).

Article 

Google Scholar 

Zimmerman, J. C., DeWald, L. E. & Rowlands, P. G. Vegetation diversity in an interconnected ephemeral riparian system of north-central Arizona, USA. Biol. Conserv. 90, 217–228. https://doi.org/10.1016/S0006-3207(99)00035-X (1999).

Article 

Google Scholar 

Brown, J. Mammals on mountainsides: elevational patterns of diversity. Glob. Ecol. Biogeogr. 10, 101–109. https://doi.org/10.1046/j.1466-822x.2001.00228.x (2001).

Article 

Google Scholar 

Lomolino, M. V. Elevation gradients of species-density: historical and prospective views. Glob. Ecol. Biogeogr. 10, 3–13. https://doi.org/10.1046/j.1466822x.2001.00229.x (2001).

Article 

Google Scholar 

Ahmed, M. J., Murtaza, G., Shaheen, H. & Habib, T. Distribution pattern and associated flora of Jurinea dolomiaea in the western Himalayan highlands of Kashmir: an indicator endemic plant of alpine phytodiversity. Ecol. Ind. 116, 106461. https://doi.org/10.1016/j.ecolind.2020.106461 (2020).

Article 

Google Scholar 

Bhat, J. A. et al. Influence of altitude on the distribution pattern of flora in a protected area of Western Himalaya. Acta Ecol. Sin. 40, 30–43. https://doi.org/10.1016/j.chnaes.2018.10.006 (2020).

Article 

Google Scholar 

Kutiel, P. & Lavee, H. Effect of slope aspect on soil and vegetation properties along an aridity transect. Isr. J. Plant Sci. 47, 169–178. https://doi.org/10.1080/07929978.1999.10676770 (1999).

Article 

Google Scholar 

Cantlon, J. Vegetation and microclimates of north and south slopes of Cushetunk mountain. New Jersey. Ecol. Monogr. 23, 241–270 (1953).

Article 

Google Scholar 

Vetaas, O. R. Gradients in field-layer vegetation on an arid misty mountain plateau in the Sudan. J. Veg. Sci. 3, 527–534 (1992).

Article 

Google Scholar 

Kirkpatrick, J., Fensham, R., Nunez, M. & Bowman, D. Vegetation-radiation relation in the wet-dry tropics: granite hills in northern Australia. Vegetatio 76, 103–112 (1998).

Google Scholar 

Ady, J. The Taif escarpment, Saudi Arabia: a study for nature conservation and recreational development. Mt. Res. Dev. 15, 101–120 (1995).

Article 

Google Scholar 

Almazroui, M., Nazrul Islam, M., Athar, H., Jones, P. D. & Rahman, M. A. Recent climate change in the Arabian Peninsula: annual rainfall and temperature analysis of Saudi Arabia for 1978–2009. Int. J. Climatol. https://doi.org/10.1002/joc.3446 (2012).

Article 

Google Scholar 

Migahid, A. M. Flora of Saudi Arabia 4th edn. (King Saud University Press, 1996).

Google Scholar 

Collenette, S. Wild Flowers of Saudi Arabia (National Commission for Wildlife Conservation and Development, 1999).

Google Scholar 

Chaudhary, S. Flora of the Kingdom of Saudi Arabia (Ministry of Agriculture and Water, 2001).

Google Scholar 

Raunkiaer, C. Life Forms of Plants and Statistical Plant Geography (Collected Paper Translated into English) (University Press, 1934).

Google Scholar 

Wickens, G. E. The Flora of Jebel Morra (Sudan Republic) and Its Geographical Affinities. Kew Bulletin Additional Series V (HMSO, London, 1976).

Google Scholar 

Zohary, M. Geobotanical Foundations of the Middle East Vol. 2 (GustavFischer Verlag, 1973).

Google Scholar 

Broadbent, F. E. Organic matter. In Methods of Soil Analysis Part 1 (ed. Black, C. A.) 1397–1400 (American Society of Agronomy, Inc, 1965).

Google Scholar 

Bremmer, J. M. Total nitrogen. In Methods of Soil Analysis Part 1 (ed. Black, C. A.) 1149–1176 (American Society of Agronomy, Inc, 1965).

Google Scholar 

Ward, J. H. Hierarchical grouping to optimize an objective function. Am. Stat. Assoc. J. 58, 236–244 (1963).

MathSciNet 
Article 

Google Scholar 

Castro, S. A. & Jaksic, F. M. Patterns of turnover and floristic similarity show a non random distribution of naturalized flora in Chile. South America. Rev. Hist. Nat. 81, 111–121 (2008).

Google Scholar 

Magurran, A. E. Ecological Diversity and Its Measurements (Princeton University Press, 1988).

Book 

Google Scholar 

Pielou, E. C. Ecological Diversity 1st edn. (Wiely Interscience, 1975).

Google Scholar 

Hosni, H. A. & Hegazy, A. K. Contribution to the flora of Asir, Saudi Arabia. Candollea 51, 169–202 (1996).

Google Scholar 

Al-Turki, T. A. & Al-Olayan, H. A. Contribution to the flora of Saudi Arabia: hail region. Saud. J. Biol. Sci. 10, 190–222 (2003).

Google Scholar 

Abd El-Ghani, M. M. & Abdel-Khalik, K. N. Floristic diversity and phytogeography of the gebel Elba national park South-East Egypt. Turk. J. Bot. 30, 121–136 (2006).

Google Scholar 

Panthi, M. P., Chaudhary, R. P. & Vetaas, O. R. Plant species richness and composition in a trans Himalayan inner valley of mananging district, Central Nepal. Himal. J. Sci. 4, 57–64. https://doi.org/10.3126/hjs.v4i6.983 (2007).

Article 

Google Scholar 

Burke, A. Properties of soil pockets on arid Nama karoo inselbergsethe effect of geology and derived landforms. J. Arid Environ. 50, 219–234. https://doi.org/10.1006/jare.2001.0907 (2002).

ADS 
Article 

Google Scholar 

Måren, I. E., Karki, S., Prajapati, C., Yadav, R. K. & Shrestha, B. B. Facing north or south: does slope aspect impact forest standcharacteristics and soil properties in a semiarid trans-Himalayanvalley?. J. Arid Environ. 121, 112–123. https://doi.org/10.1016/j.jaridenv.2015.06.004 (2015).

ADS 
Article 

Google Scholar 

Boyko, H. On the role of plants as quantitative climate indicators and the geoecological law of distributions. J. Ecol. 25, 138–157 (1947).

Article 

Google Scholar 

Andersen, G. L. & Krzywinski, K. Longevity and growth of Acacia tortilis; insights from 14C content and anatomy of wood. BMC Ecol. 7, 4. https://doi.org/10.1186/1472-6785-7-4 (2007).

CAS 
Article 
PubMed 
PubMed Central 

Google Scholar 

Tiwari, N., Srivastava, N. & Sharma, V. Comparative analysis of total phenolic content and antioxidant activity of in vivo and in vitro grown plant parts of Carica papaya L. Ind. J. Plant Physiol. 19, 356–362 (2014).

Article 

Google Scholar 

Daur, I. Plant flora in the rangeland of Western Saudi Arabia. Pak. J. Bot. 44, 23–26 (2012).

Google Scholar 

El-Demerdash, M. A., Hegazy, A. K. & Zilay, A. M. Distribution of plant communities in Tihamah coastal plains of Jazan region, Saudi Arabia. Vegetatio 112, 141–151 (1994).

Article 

Google Scholar 

El-Ghanim, W. M., Hassan, L. M., Galal, T. M. & Badr, A. Floristic composition and vegetation analysis in Hail region north of Central Saudi Arabia. Saudi J. Biol. Sci. 17, 119–128. https://doi.org/10.1016/j.sjbs.2010.02.004 (2010).

CAS 
Article 
PubMed 
PubMed Central 

Google Scholar 

Abd El-Ghani, M. M. Environmental correlates of species distribution in arid desert ecosystems of eastern Egypt. J. Arid Environ. 38, 297–313 (1998).

ADS 
Article 

Google Scholar 

Sharma, M. & Rajpal, K. Life-forms and biological spectrum of the flora of the Punjab state, India. Bull. Bot. Surv. India 33, 276–280. https://doi.org/10.1078/1439-1791-00163 (1991).

Article 

Google Scholar 

Hegazy, A. K., El-Demerdash, M. A. & Hosni, H. A. Vegetation, species diversity and floristic relations along an altitudinal gradient in South-West Saudi Arabia. J. Arid Environ. 38, 3–13. https://doi.org/10.1006/jare.1997.0311 (1998).

ADS 
Article 

Google Scholar 

Kassas, M. & Girgis, W. A. Habitats and plant communities in the Egyptian deserts. V. The limestone plateau. J. Ecol. 52, 107–119 (1964).

Article 

Google Scholar 

Orshan, G. The desert of the middle east. In Ecosystems of the World, 12B, Hot Desert and Arid Shrublands (eds Evenari, M. et al.) 1–28 (Elsevier, 1986).

Google Scholar 

Shaltout, K. H., Sheded, M. G. & Salem, A. M. Vegetation spatial heterogeneity in a hyper arid biosphere reserve area in North Africa. Act. Bot. Croat. 69, 31–46 (2010).

Google Scholar 

Stewart, L. et al. The regional species richness and genetic diversity of Arctic vegetation reflect both past glaciations and current climate. Ecol. Biogeogr. 25, 430–442. https://doi.org/10.1111/geb.12424 (2016).

Article 

Google Scholar 

Cain, S. A. & Castro, M. O. Manual of Vegetation Analysis (Harper Brothers, 1959).

Google Scholar 

Dickoré, W. B. & Nüsser, M. Flora of Nanga Parbat (NW Himalaya, Pakistan): an annotated inventory of vascular plants with remarks on vegetation dynamics. Englera 19, 1–253. https://doi.org/10.2307/3776769 (2000).

Article 

Google Scholar 

Hoffmann, A. J. & Hoffmann, A. E. Altitudinal ranges of phanerophytes and chamaephytes in central Chile. Vegetatio 48, 151–163. https://doi.org/10.1007/BF00726885 (1982).

Article 

Google Scholar 

White, F. & Leonard, J. Phytogeographical links between Africa and Southwest Asia. Flora Veg. Mundi. 9, 229–246. https://doi.org/10.1007/BF01117080 (1991).

Article 

Google Scholar 

König, P. Phytogeography of South-Western Saudi Arabia (Asir, Tihama). Erde 119, 75–89 (1988).

Google Scholar 

White, F. The vegetation of Africa: A descriptive memoir to accompany the UNSECO, AETFAT, UNSO vegetation map of Africa (United Nations Educational, Scientific and Cultural Organization, Paris, 1983).

Google Scholar