Assessing the status of soil seed bank in Parthenium hysterophorus invaded land use types and its social aspects in Lower Hare Watershed, Southern Ethiopia

Tademe Minase 1, * and Wakshum Shiferaw 2

1 South Ethiopia Agricultural Research Institute, Arba Minch Agricultural Research Center, Soil and Water Conservation Research P. O. Box 1225 Arba Minch, Ethiopia.
2 Arba Minch University College of Agricultural Sciences, Natural Resources Management, P. O. Box 21 Arba Minch, Ethiopia.
 
Research Article
International Journal of Science and Research Archive, 2024, 13(01), 3335–3358.
Article DOI: 10.30574/ijsra.2024.13.1.2086
Publication history: 
Received on 19 September 2024; revised on 28 October 2024; accepted on 30 October 2024
 
Abstract: 
In Ethiopia, Parthenium hysterophorus (P. hystrophorus) is an invasive alien plant affecting various ecosystems. P. hysterophorus displaced native plant species and caused a serious threat to biodiversity. This study aimed to assess soil seed bank of P. hysterophorus under major land use types and assess community perception towards the effects of P. hysterophorus on social aspects in lower Hare watershed. For this study, 210 soil samples were collected from fifteen transect lines in grassland, cropland, and forest land use types. Statistical analysis using three ways factorial ANOVA was used to analyze the difference in density of P. hysterophorus among various land uses soil depths, and sites (P < 0.05). For the perception of local communities regarding the effects of P. hysterophorus, a total of 117 respondents were used and semi-structured and close-ended questionnaires for data collection. It found that all factors: land use, site, and soil depth significantly affected the soil seed bank density in the lower Hare watershed (P < 0.05). Results indicated that mean density of seeds were the highest in croplands of other land use types. Meanwhile, the highest mean density of seeds was identified in 0-10 cm soil depth, but the lowest mean density of seeds was identified in 10-15 cm soil depth. The highest seeds were identified at Chano Cheliba, but the density of seeds the lowest in density at Kola Shera. 38.5% of households in Kola Shera, and 21.4% in Kola Cheliba, but 8.5% in Kola Doriga said that it had effects on ecosystem services such as crop yield and livestock production. There should be a need for increased awareness about the density of P. hysterophorus in various land uses and its impacts on native plant species. Seeking possible solutions such as biological and mechanical control methods are among the local people, researchers, and extension workers can use for the management of its invasion, and appropriate control measures can be designed to combat its further invasion and impacts on different land uses of the region.
 
Keywords: 
Weed density; Invasive plants; Parthenium hysterophorus; Social aspect; Soil seed bank
 
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