Differentiation, Extinction, and Rare in the Environment in Medicinal and Flowering Plants of Sidhi M.P., India
Main Article Content
Authors
Abstract
Many botanists have taken an interest in the area of Thrace due to the rich flora that hasdeveloped there as a direct consequence of the region's diverse climate and geographicalcharacteristics.Numerous floristic observations were used for this investigation. The study region is hometo a number of rare or endangered plant species. Heavy biotic pressure, habitat loss, megaprojects,overexploitation, trade value, overgrazing, and aggressive invasion of alien species are all threats to theSidhi district's phytodiversity to varying degrees. Thirty-seven plant species are listed here as beingeither endangered or unusual. The current state of all 37 plant species in the research region, as well astheir scientific and common names, as well as their red data category, are listed. The preservation ofmany of these plant species is an urgent matter. It's really concerning that endangered creatures are inneed of increasing amounts of help. Sanjay Dubri Wild Life Sanctuary in Sidhi district is home to anumber of rare and endangered plant species, which are highlighted in the current research.
Downloads
Download data is not yet available.
Article Details
Section
Articles
References
- Griffith, Daniel & Byrd, Kristin & Taylor, Niky & Allan, Elijah & Bittner, Liz & O'Brien, Bart & Parker, V. & Vasey, Michael & Pavlick, Ryan & Nemani, Ramakrishna. (2023). Variation in Leaf Reflectance Spectra Across the California Flora Partitioned by Evolutionary History, Geographic Origin, and Deep Time. Journal of Geophysical Research: Biogeosciences. 128. 10.1029/2022JG007160.
- Sosa, Victoria & Alvarado-Cardenas, Leonardo & Stefano, Rodrigo & González-Gallegos, Jesús & Hernandez-Sandoval, Luis & Jiménez-Rosenberg, Raul &Ochoterena, Helga & Rodriguez, Aaron &Vibrans, Heike & Angulo, Diego. (2023). The online Flora of Mexico: eFloraMEX. Botanical Sciences. 100. 10.17129/botsci.3123.
- Kılıç, Ömer &Yıldırımlı, Şinasi& Şahin, Talip. (2022). New plant species of Adıyaman (Turkey) and surroundings.
- Barinova, Sophia & Smith, Thomas. (2022). Flora of Algae and Cyanobacteria of Continental Waters of Israel in the XXI Century: Taxonomy, Autecology and Water Quality Indicators. Diversity. 14. 328. 10.3390/d14050328.
- Niissalo, Matti & Choo, Le Min. (2021). Flora of Singapore precursors, 25: Taxonomic notes on new discoveries from Bukit Timah Nature Reserve, including two native genera newly recorded. Gardens’ Bulletin Singapore. 73. 33-48. 10.26492/gbs73(1).2021-05.
- Addinsoft. (2009). XLSTAT 2009. Addinsoft, France. Retrieved from http://www.xlstat.com/en/learning-center/tutorials/running-a-mantel-test-with-xlstat.html.
- Aeschimann, D, Lauber, K, Moser, D. M, &Theurillat, J.‐P. (2004). Flora alpina. Bern: Haupt Verlag AG.
- Bilz, M, Kell, S. P, Maxted, N, & Lansdown, R. V. (2011). European red list of vascular plants. Luxembourg: Publications Office of the European Union.
- Blanco‐Pastor, J. L, & Vargas, P. (2013). Autecological traits determined two evolutionary strategies in Mediterranean plants during the Quaternary: Low differentiation and range expansion versus geographical speciation in Linaria. Molecular Ecology, 22, 5651–5668.
- Dormann, C. F. Gruber, B., Winter, M., & Herrmann, D. (2010). Evolution of climate niches in European mammals? Biology Letters, 6, 229–232.