Soil Macroinvertebrate Response to Paddy Rice Farming Pathways in Mpologoma Catchment, Uganda

Bunyangha, Jackson; Muthumbi, Agnes; Gichuki, Nathan; Mwanjalolo, Majaliwa; Egeru, Anthony

doi:10.3390/agronomy12020312

Cited by 6 publications

(5 citation statements)

References 50 publications

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“…, the abundance of SMF communities across different AFPs varied signi cantly (Table 4). the difference in SMF abundance is attributed to the variation land management conditions (Bunyangha et al, 2022, Ayuke et al, 2011, Barrios, 2007. The SMF abundance counted in the present study as were comparable with the previous study (Bufebo et al, 2021), who obtained 332 SMF in southern Ethiopia, 514 SMF in Kenya (Omondi et al).…”

Section: Abundance Of Soil Macrofaunasupporting

confidence: 89%

“…This may be the soil disturbance by agricultural activities and low vegetation diversity could lead to poor SMF species diversity (Bufebo et al, 2021). On the other hand, this study contradicted the research nding that SMF richness and diversity increased after the conversion of natural wetland to cultivated elds (Bunyangha et al, 2022). The difference might be the land management practices and the type of residue inputs applied to the soil.…”

Section: Abundance Of Soil Macrofaunacontrasting

confidence: 61%

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The diversity and abundance of soil macrofauna under different agroforestry practices in the drylands of southern Ethiopia

Masebo,

Birhane,

Takele

et al. 2023

Agroforest Syst

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The conversion of natural lands to agricultural uses is a signi cant threat to soil biodiversity. Within agriculture, monoculture based systems are the most common which often result in low biodiversity because they impact the abundance, diversity, and composition of soil macrofauna (SMF). The objective of this paper was to analyze SMF abundance and diversity across different agroforestry practices (AFP) in the drylands of southern Ethiopia. The soil monolith and soil samples were collected from homegarden, cropland, woodlot, and trees on soil and water conservation based AFP using the standard Tropical Soil Biology and Fertility Institute manual, and the identi cation was done based on morphological characteristics and standard identi cation keys. The abundance, occurrence, and community composition of SMF were signi cantly different across the different AFPs (P < 0.05). In this study, 378 SMF belonging to 13 families, including unnamed were identi ed. The soil ecosystem of AFP was dominated by earthworms (relative abundance = 0.43), followed by termites (relative abundance = 0.12). The homegarden AFP type had a signi cantly higher number of SMF occurrence index of 46.03 (174), followed by woodlot, 26.72 (101) practices, and the lowest was recorded under cropland, 12.70 (48). The abundance, diversity, richness, and similarity of SMF were signi cantly related to soil total nitrogen and organic carbon. Phosphorus and pH were signi cantly related to the abundance and richness of SMF. The homegarden and woodlot AFP types were suitable for SMF biodiversity conservation.

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Section: Abundance Of Soil Macrofaunasupporting

confidence: 89%

Section: Abundance Of Soil Macrofaunacontrasting

confidence: 61%

The diversity and abundance of soil macrofauna under different agroforestry practices in the drylands of southern Ethiopia

Masebo,

Birhane,

Takele

et al. 2023

Agroforest Syst

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“…Mpologoma catchment is a major food basket for Uganda, largely through paddy rice production [70]. Lately, agricultural encroachment on the catchment's wetlands has increased [20], affecting soil biodiversity [71] and bird and reptile species [72]. Increased uncontrolled conversion of wetlands into farmlands deprives the community of other ecosystem services that wetlands provide such as flood protection.…”

Section: Study Sitementioning

confidence: 99%

Preferred Attributes for Sustainable Wetland Management in Mpologoma Catchment, Uganda: A Discrete Choice Experiment

Bunyangha

Muthumbi

Egeru

et al. 2022

Land

Self Cite

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Sustainable wetland management is a focus of many countries worldwide. These mainly use protection as a key policy directive for conservation. However, avoidance directives tend to disenfranchise local populations. Thus, such management is often resisted and rarely effective. Tailoring management strategies to user preferences allows conservation to support community livelihoods for sustainable development. This study employed a discrete choice experiment to determine the wetland management attributes preferred by residents of Mpologoma catchment as a prelude to developing a co-management system. Listed in descending order, attribute preferences were paddy farmers’ schemes, fish farming, education and research, protected wetland area, and recreation and tourism. Respondents’ characteristics influenced their choices. Older adults were more likely to support fish farming. In contrast, existing paddy farmers tended to resist such focuses and an increase in protected wetland area. Additionally, respondents with higher education were opposed to paddy farmers’ schemes, and the preference for education and research was positively influenced by respondents’ income. Respondents were willing to pay between $0.64 and $1.76 per household for each unit improvement in the preferred attribute. Our results underscore the role of DCEs in unlocking individuals’ attribute preferences, whose integration into co-management systems can be important for sustainable wetland conservation.

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“…The aim of the study by Larkin et al [31] was to examine four different potato cropping systems designed to address specific management goals (soil conservation, soil improvement, disease suppression, and a status quo standard rotation) for potato crop growth and yield characteristics under both irrigated and rainfed conditions in Maine (USA). Bunyangha et al [32], comparing two paddy rice farming pathways (smallholder and large-scale commercial) and an adjacent natural wetland in the Mpologoma catchment (Uganda), highlighted that large-scale commercial paddies not only had higher richness and diversity than natural wetland and smallholder paddies, but also underscored the role of soil in influencing the macroinvertebrate community in rice paddies. In light of the production increase in quinoa worldwide (Chenopodium quinoa Willd.…”

Section: Innovative Cropping Systems and Agronomic Practicesmentioning

confidence: 99%

Cropping Systems and Agronomic Management Practices of Field Crops

Anastasi,

Scavo

2023

Agronomy

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Soil Macroinvertebrate Response to Paddy Rice Farming Pathways in Mpologoma Catchment, Uganda

Cited by 6 publications

References 50 publications

The diversity and abundance of soil macrofauna under different agroforestry practices in the drylands of southern Ethiopia

The diversity and abundance of soil macrofauna under different agroforestry practices in the drylands of southern Ethiopia

Preferred Attributes for Sustainable Wetland Management in Mpologoma Catchment, Uganda: A Discrete Choice Experiment

Cropping Systems and Agronomic Management Practices of Field Crops

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