Survey of Soil Seed Bank in Three Watersheds across Nnamdi Azikiwe University, Awka Campus, Nigeria
Published: 2023-07-10
Page: 172-185
Issue: 2023 - Volume 6 [Issue 2]
Iroka F. Chisom *
Department of Botany, Nnamdi Azikiwe University Awka, Anambra State, Nigeria.
Nwakuche O. Adaugo
Department of Botany, Nnamdi Azikiwe University Awka, Anambra State, Nigeria.
Ogbuozobe O. Gabriel
Department of Botany, Nnamdi Azikiwe University Awka, Anambra State, Nigeria.
Ikegbunam N. Clara
Department of Botany, Nnamdi Azikiwe University Awka, Anambra State, Nigeria.
Nwaogaranya U. Patrick
Department of Botany, Nnamdi Azikiwe University Awka, Anambra State, Nigeria.
Ekwealor U. Kenneth
Department of Botany, Nnamdi Azikiwe University Awka, Anambra State, Nigeria.
*Author to whom correspondence should be addressed.
Abstract
Soil seed banks survey of three watersheds located across the Awka campus of Nnamdi Azikiwe University was carried out using standard field procedures. Soil samples were collected from two points (P1 and P2) in each of the watersheds at depths of 0-5cm, 5-10cm and 10-15cm. The soil samples collected were spread and watered daily to allow sprouting of seeds. After germination, plants were allowed to grow for an additional 2 weeks; taxonomic identification and classification of all the plant species in every soil sample collected was carried out. The plant species were identified and classified considering observable morphological features with the aid of a flora. The abundance measures analyzed includes: density, frequency, relative density, relative frequency, importance value, species diversity using Shannon-Wiener index. A total of one hundred and eighty-seven (187) plants germinated from the total of eighteen soil samples collected from different points at the study sites. Twenty five (25) species of plants were identified within 13 families. The study revealed that the families Fabaceae, Amaranthaceae and Solanaceae had 2 species each; Euphorbiaceae, Mimosaceae, Malvaceae, Portulacaceae, Cucurbitaceae, Urticaceae and Commelinaceae all had 1 species each. A total of five families were recorded for grasses while Asteraceae family had four species. The family Poaceae had the highest number, 5 species and the family Cyperaceae had 3 species. From the above results, the families that had the most common herb species were Poaceae, Asteraceae and Cyperaceae. The results also revealed that a good number of plant species showed very high Importance Value Index (IVI) of above 50%. The results of Shannon- Weiner index of Diversity for the study area was higher in site A point 1 at 0-5 cm depth (1.196), site B point 1 at 0-5 cm depth (2.136) and site C point 1 at 0-5 cm depth (2.314). The results of this study portray significant soil seed bank potentials of the study area because it showed a wide range of species diversity and abundance.
Keywords: Soil, seed bank, watershed, species, diversity, plants, abundance, distribution
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References
Baker HG. Some aspects of the natural history of seed banks. In: Leck MA, Parker VT, Simpson RL (Ed). Ecology of soil seed banks. London. Academic Press. 1989;5-19.
Simpson RL, Leck MA, Parker VT. Seed banks: General concepts and methodological issues. In: Leck MA, Parker VT, Simpson RL (Ed). Ecology of soil seed banks. London. Academic Press. 1989;3-8.
Fernandez-Quintanilla C, Saavedra MS, Garcia TL. Ecologia de las malas hierbas. In: Garcia Torre L, Fernandez-Quintanilla C. Fundamentos sobre malas hierbas y herbicidas. Mundi-Prensa, Madrid. 1991; 49-69.
Dekker J. The Soil Seed Bank. Agronomy Department, Iowa StateUniversity; 1997.
Fernandez-Quintanilla C. Studying the population dynamics of weeds. Weed Research. 1988;25(6):443-447.
Carvalho PC, Favoretto V. Impacto das reservas de sementes no solo sobre a dinâmica populacional das pastagens. Informativo Abrates. 1995;5(1):87-108.
Luschei EC. Comparison of the effectiveness of seedbank sampling to seedling counts in reducing the uncertainty in estimates of weed population size. Asp. Appl. Biol. 2003;69:137-142.
Akobundu IO, Agyakwa CW. A Handbook of West African Weeds. Second Edition. International Institute of Tropical Agriculture.African Book Builders, Ibadan, Nigeria. 1998;1-577.
Onyili CA, Ekwealor KU, Okereke CN, Nwakuche OA, Iroka CF. Ecological survey on species of poaceae family present in Nnamdi Azikiwe university campus Awka, Anambra State. Asian Journal of Environment & Ecology. 2023;21(1):34-42.
Milton SJ, Dean WRJ. Disturbance, drought and dynamics of desert dune grassland, South Africa. Plant Ecology. 2001;150:37-51.
Olff H, Ritchie ME. Effects of herbivore on grassland plant diversity, Trends in Ecology and Evolution; 1998;13:261–265.
Ekwealor KU, Echereme CB, Ofobeze TN, Okereke CN. Assessment of Phenology in Gmelina (Gmelina arborea Roxb.) Populations in Nigeria. Asian Journal of Research in Botany. 2019;2(4): 1-2.
Rosenzweig M. Species diversity in space and time. Cambridge University Press, Cambridge. 1995;171.
Abdullahi MB. Phytosociological Studies and Community Rural ApppraisalTowards Biodiversity Conservation in Yankari Game Reserve, Bauchi State, Nigeria. An unpublished Ph.D Thesis. Abubakar Tafawa Balewa University, Bauchi, Nigeria. 2010;99.
Abdullahi MB. An investigation into the herbaceous plant formations of yankari game reserve Bauchi, Nigeria. Botany Research Journal. 2011;4(3):29-34.
Archy ON, Ekwealor KU, Mbaekwe IE, Izundu AI, Iroka CF. Evaluation of soil physicochemical properties, soil seed bank and species density of five plant communities in Awka, Anambra state. Journal of Agriculture and Ecology Research International. 2021;22(2):45- 54.
Richard AG, Emmanuel KB, Canisius JK, Emmanuel BM, Almas MK, Philipina FS. Species Composition, Richness and Diversity in Mimbo Woodland of Bereku Forest Reserve, Tanzania. Journal of Biodiversity. 2011;2(1):1-7.