The effect of crop residue and fertilizer use on pearl millet yields in Niger

Bationo, A.; Christianson, C. B.; Klaij, M.C.

doi:10.1007/bf00750571

Cited by 95 publications

(49 citation statements)

References 15 publications

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“…Similar responses of enhanced C storage (up to 30 %) and increased yields (10-30 %) to residue management have also been found for, e.g., maize and soybean in the US (Wilhelm et al, 2004) and millet in Niger (Bationo et al, 1993).…”

Section: Trade-offs and Win-win Management Optionssupporting

confidence: 68%

Soil carbon management in large-scale Earth system modelling: implications for crop yields and nitrogen leaching

et al. 2015

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Abstract. Croplands are vital ecosystems for human well-being and provide important ecosystem services such as crop yields, retention of nitrogen and carbon storage. On large (regional to global)-scale levels, assessment of how these different services will vary in space and time, especially in response to cropland management, are scarce. We explore cropland management alternatives and the effect these can have on future C and N pools and fluxes using the land-use-enabled dynamic vegetation model LPJ-GUESS (Lund-Potsdam-Jena General Ecosystem Simulator). Simulated crop production, cropland carbon storage, carbon sequestration and nitrogen leaching from croplands are evaluated and discussed. Compared to the version of LPJ-GUESS that does not include land-use dynamics, estimates of soil carbon stocks and nitrogen leaching from terrestrial to aquatic ecosystems were improved.Our model experiments allow us to investigate trade-offs between these ecosystem services that can be provided from agricultural fields. These trade-offs are evaluated for current land use and climate and further explored for future conditions within the two future climate change scenarios, RCP (Representative Concentration Pathway) 2.6 and 8.5. Our results show that the potential for carbon sequestration due to typical cropland management practices such as no-till management and cover crops proposed in previous studies is not realised, globally or over larger climatic regions. Our results highlight important considerations to be made when modelling C-N interactions in agricultural ecosystems under future environmental change and the effects these have on terrestrial biogeochemical cycles.

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Section: Trade-offs and Win-win Management Optionssupporting

confidence: 68%

Soil carbon management in large-scale Earth system modelling: implications for crop yields and nitrogen leaching

et al. 2015

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“…With the emphasis on sustainable agriculture, attention has been increasingly turning to recycling of crop residues as a component of soil-fertility management programs in the tropical and semiarid tropical regions. The studies at ICRISAT Sahelian Center in Niger by Bationo et al (1993) and Hafner et al (1993) demonstrated that the addition of crop residue (millet straw) to a P-deficient acid sandy soil led to highly significant increases in P uptake and yield of pearl millet. The beneficial effect of crop residues on P uptake in these studies was attributed to the increased P mobility in soil as a result of millet straw addition (Kretzschmar et al, 1991).…”

Section: Introductionmentioning

confidence: 98%

Changes in P fractions and sorption in an Alfisol following crop residues application

Reddy¹,

Rao

Singh

2005

Z. Pflanzenernähr. Bodenk.

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SummaryWith the emphasis on sustainable agriculture, attention has been increasingly turning to recycling of crop residues as a component of fertility management strategies for tropical soils. We assessed the effects of soybean residue (SR) and wheat residue (WR) applied either alone or in combination with fertilizer P (FP) on dynamics of labile P, distribution of P fractions, and P sorption in a semiarid tropical Alfisol by conducting a 16 w long incubation experiment. The amount of P added through crop residues, FP or their combinations was kept constant at 10 mg P (kg soil) ±1 . Addition of SR or WR resulted in net increase of labile inorganic (P i ) and organic P (P o ) and microbial P throughout the incubation period, except that the WR decreased labile P i during first 2 w due to P i immobilization. The P immobilization associated with WR addition was, however, offset when fertilizer P was combined with WR. Generally, the increases in labile-P fractions were larger with the SR and SR+FP than with the WR and WR+FP. The sequential fractionation of soil P at the end of 16 w indicated that a major part of added fertilizer P transformed into moderately labile and stable P fractions as evident from the increased NaOH-P i and HCl-P in the FP treatment. In contrast, the addition of SR and WR alone or in combination with FP favored a build-up in NaHCO 3 -P i and -P o and NaOH-P o fractions while causing a decrease in NaOH-P i and HCl-P fractions. The addition of these crop residues also effectively decreased the P-sorption capacity and hence reduced the standard P requirement of the soil (i.e., the amount of P required to maintain optimum solution P concentration of 0.2 mg P l ±1 ) by 24%±43%. Results of the study, thus, imply that soybean and wheat crop residues have the potential to improve P fertility of Alfisols by decreasing P-sorption capacity and by redistributing soil P in favor of labile-P fractions and promoting accretion of organic P.

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“…Because of this, cultivation causes decrease in soil nutrients. Detailed studies on this chemical degradation of the soil (depletion of soil nutrients) and its recovery through fertilization have been conducted by A. Bationo, A. Buerkert, K. Hayashi and others (see Bationo and Mokwunye 1991;Bationo et al 1993;Buerkert et al 2000;Hayashi et al 2008;etc.). Additionally, Nakamura et al (2010) have published work on the depletion of soil organic matter as a result of cultivation and its recovery through the application of organic amendment.…”

Section: Preface -The Least Developed Countries In the Southern Saharmentioning

confidence: 99%

Desertification and a new countermeasure in the Sahel, West Africa

Ikazaki

2015

Soil Science and Plant Nutrition

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The effect of crop residue and fertilizer use on pearl millet yields in Niger

Cited by 95 publications

References 15 publications

Soil carbon management in large-scale Earth system modelling: implications for crop yields and nitrogen leaching

Soil carbon management in large-scale Earth system modelling: implications for crop yields and nitrogen leaching

Changes in P fractions and sorption in an Alfisol following crop residues application

Desertification and a new countermeasure in the Sahel, West Africa

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