Kodjovi Sotomè Detchinli scite author profile

Kodjovi Sotomè Detchinli

3Publications

3Citation Statements Received

27Citation Statements Given

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Land Degradation and Climate Change Resilient Soil and Crop Management Strategies for Maize Production in Coastal Western Africa

Sogbedji¹,

Detchinli²,

Mazinagou³

et al. 2017

IOSR JAVS

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A 2-yr (four cropping seasons) trial was conducted with nine maize (Zea mays L.) varieties and four fertilization treatments in three replicates to determine the appropriate variety-fertilization combinations. Fertilization treatments were: no fertilization (T1), 6 t ha-1 of farmyard manure (FYM) (T2), the national recommendation of 200 kg N 15 P 15 K 15 plus 100 kg urea (46% N) ha-1 (T3) and 3 t of FYM plus 100 kg N 15 P 15 K 15 plus 50 kg urea ha-1 (T4). Across fertilization treatments, 2-yr average grain yields were highest (6.41 to 6.76 t ha-1) for Bassar, TZEE and Obatampa varieties and lowest (4.63 and 5.07 t ha-1) for Wahala3 and Agoèbli in the first cropping season. TZEE, Dapaong, Obatampa and Bassar performed better (4.0 to 4.39 t ha-1) during the second season. Across varieties, grain yields for T4, T3 and T2 increased by 92 to 58, 69 to 42 and 57 to 34% in comparison with T1, respectively, those under T4 and T3 were 22.6 to 18 and 8 to 6% higher than that for T2, respectively, and the yield for T4 was 11 to 13.5% superior over that for T3. Fertilization treatment T4 proved suitable for improved grain yield and five varieties were no more recommended for the second cropping season.

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Water and Fertilizer Use Management for Improving Smallholder Farmers’ Tomato Production in the Dry Savanna Agro Ecology of West Africa

Sogbedji¹,

Detchinli²,

Koukoude³

et al. 2017

Int.J.Curr.Microbiol.App.Sci

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Assessment of the Profitability and the Effects of Three Maize-Based Cropping Systems on Soil Health in Western Africa

Detchinli¹

2014

AJAF

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Enhanced livelihoods for populations, especially smallholder farmers in sub-Saharan Africa may be achieved through improved cropping systems. We assessed the economic returns from maize grain yield and the effects of three cropping systems on soil properties in an eight-year study segmented in cycles of two years each: continuous maize (Zea mays L.), maize-mucuna (Mucuna pruriens var. utilis), and maize-pigeon pea (Cajanus cajan). The rainfall pattern in the study region allows for two growing seasons per year, leading to four growing seasons per cycle. Nitrogen (N) and phosphorus (P) fertilizer rates were imposed on maize in each system and maize grain yields and associated cash values as well as soil properties were measured. Seeding mucuna and pigeon pea crops into maize crop in the first year did not result in maize grain yield increases from N and P fertilizers in the subsequent year. Continuous maize system increased mean maize grain yields by 6.2 to 60.3% in the fallow year of the 2002-2003 and 2006-2007 cycles and by 5.1 to 8.2% on a cycle basis in the 2002-2003 cycles. For the remaining periods of the study, mucuna and pigeon pea based maize cropping increased grain yields by 28.6 to 47.6%, 22 to 260% and 28.3 to 136.1% in fallow year, non-fallow years and on a cycle basis, respectively, compared to yields under continuous maize. On a cycle basis, economic returns for maize-mucuna and maize-pigeon pea based systems were 105.1 and 66.5%, respectively, higher than that for continuous maize. The mucuna and pigeon pea based systems increased the initial soil total carbon (C) content by 55 and 69%, respectively, resulted in increases of 110 to117%, 33 to 63%, 29%, and 16-17% for exchangeable Ca 2+ , Mg 2+ , K + and total cation exchange capacity (CEC), respectively, and enhanced water stable macroaggregates stability, compared to continuous maize. Maize mucuna and pigeon pea-based maize cropping systems with mucuna and pigeon crops in alternate years should be advised towards sustaining enhanced profitability and improved soil physical and chemical properties.

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