Amadou Abdourhamane Touré scite author profile

In the Sahel, with average annual precipitation in the order of 500 mm yr − 1 , wind erosion occurs mainly on cultivated millet fields whose surfaces are only partially covered by crop residues. The impact of these residues on wind erosion was not clearly established. The objective of this study is thus to quantify the actual amount of crop residues in traditional Sahelian fields and to determine their impacts on wind erosion by reference to a bare surface throughout the seasonal cycle over several years. At the beginning of the year during dry season, Sahelian farmers use to "clean" their fields, i.e. cut and lay flat on the soil surface any millet stalks still standing and yearly sprouts of shrubs. After this clearing, the crop residues cover (CRC) regularly decreases passing from 12% to less than 2% four months later. On traditional cultivated plot, crop residues efficiently prevent soil losses by wind erosion during the dry season and considerably reduce erosion fluxes at the beginning of the rainy season. However, for CRC lower than 2%, wind velocities were sufficient to produce important erosion even during dry season. A minimal cover rate of about 2% (100 kg ha − 1) thus appears as critical to reduce wind erosion. This reduction is driven by the higher aerodynamic roughness length which increases the wind erosion threshold velocity. If field clearing is made in January, as currently done, the CRC just after clearing should be about 800 kg ha − 1 to maintain CRC above 2% at beginning of the rainy season when wind velocities are the highest and wind erosion the most intense. Our results also demonstrate that during the second part of rainy season wind erosion is reduced, not so much due to vegetation development but rather to a decrease in the number and the intensity of high winds events. ©

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Responses of Upland NERICA Rice to Nitrogen and Phosphorus in Forest Agroecosystems

Oikeh

Nwilene²,

Diatta

et al. 2008

Agronomy Journal

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Rice A gronomy J our n al • Volume 10 0 , I s sue 3 • 2 0 0 8 735 ABSTRACT New Rice for Africa (NERICA) cultivars are widely adopted interspecifi c crosses between Oryza sativa and O. glaberrima but their responses to fertilizer was not known. In 2004 and 2005, four released NERICAs (NERICA 1, 2, 3, 6) under two levels of phosphorus (0 and 2.6 g m -2 ) and four of nitrogen (0, 3, 6, and 12 g m -2 ) were evaluated on an acid Typic Haplustult at Ikenne (6°54´ N, 3°42´ E) in the Nigerian forest agroecosystem. In 2004, averaged over N levels, NERICA 3 attained physiological maturity most quickly (92 days aft er seeding [DAS]) at 2.6 g P m -2 . But under drought stress (2005), although NERICA 3 was the fi rst to initiate panicles (49 DAS) and to reach midfl owering (73 DAS), maturity was delayed until 100 to 101 DAS with or without P. Also, in 2005, NERICA 6 took a much longer time to mature ( 110-111 DAS) than the other cultivars. Th erefore, NERICAs 3 and 6 were the least suitable cultivars for low-input, drought-prone environments. At low N of 3 g m -2 and zero P, paddy yield was highest in NERICA 1. With application of 12 g N m -2 , NERICA 1 also yielded 20 to 41% more than the others, implying that it had a potential for tolerance to low N and was the most N-responsive among the cultivars evaluated under limited P. Moderate levels of N (6 g m -2 ) and P (2.6 g m -2 ) are recommended for NERICAs in smallholder low-input production systems.

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Rhamphicarpa fistulosa, a parasitic weed threatening rain-fed lowland rice production in sub-Saharan Africa – A case study from Benin

Rodenburg¹,

Zossou-Kouderin

Gbèhounou³

et al. 2011

Crop Protection

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