AJPS  Vol.5 No.8 , March 2014
Evaluation of Multiple-Use Cover Crops under Rainfed during Two Seasons in Yucatan, Mexico
Abstract: The aim of the study was assessing seven legumes as cover crops during cropping seasons of the years 2000 and 2001 in the central region of the Yucatan. An experimental design of randomized blocks with arrangement of split plots was used; where treatment was the legume, and sub-treatment, was the management of defoliation, 90 days after sowing (DAS) or after harvesting the grain (AHG). Treatments were: short-cycle seed white lima bean (Phaseolus lunatus), long-cycle seed white lima bean (Phaseolus lunatus), cowpea (Vigna unguiculata), dwarf velvet bean (Mucuna pruriens var. utilis), ash velvet bean (Mucuna pruriens var. utilis), sword bean (Canavalia ensiformis) and red rice bean (Vigna umbellata). It was collected data on coverage and biomass production, grain, leaf litter and stubble yields, biomass and relative frequency of weeds, pH, total nitrogen, organic matter (OM), potential anaerobic mineralization of nitrogen (MPAN) and soil CO2 evolution. Coverage varied from 70% to 90%; and biomass from 1900 to 2500 kg·DM·ha-1 at 90 DAS in ash velvet bean (AVB) and sword bean (SB). Stubble yielded from 800 to 2200 kg·DM·ha-1. The SB reached ~3200 kg·DM·ha-1 of grain yield in the first cropping season and it was reduced in the second cropping season. AVB and SB reduced the biomass of weeds from 890 to 780 kg·DM·ha-1. The OM of soil reached 14.9% in AVB. NH4, pH, and soil CO2 evolution remained without significant changes by effect of legumes.
Cite this paper: José Bernardino, C. , Jesús Arturo, C. , Roberto, B. and Wilberth, T. (2014) Evaluation of Multiple-Use Cover Crops under Rainfed during Two Seasons in Yucatan, Mexico. American Journal of Plant Sciences, 5, 1069-1080. doi: 10.4236/ajps.2014.58119.

[1]   Caamal-Maldonado, J.A., Jiménez-Osornio, J.J., Torres-Barragán, A. and Anaya, A.L. (2001) The Use Allelopathic Legume Cover and Mulch Species for Weed Control in Cropping Systems. Agronomy Journal, 93, 27-36.

[2]   Weisbach, C., Tiessen, H. and Jiménez-Osornio, J.J. (2002) Soil Fertility during Shifting Cultivation in the Tropical Karst Soils of Yucatan. Agronomie, 22, 253-263.

[3]   Buckles, D. and Barreto, H.J. (1996) Intensificación de sistemas de agricultura tropical mediante leguminosas de cobertura: Un Marco conceptual. CIMMYT/CIAT Documento 96-06 Es.

[4]   Lobo-Burle, M., Suhet, A.R., Pereira, J., Resk, D.V.S., José, R.R., Cravo, M.S., Bowen, W., Bouldin, D.R. and Lathwell, D.J. (1992) Legume Green Manures (Dry-Season Survival and the Effect on Succeeding Maize Crops Soil Management CRSP Bulletin Number 92-04.

[5]   Kessler, C.D.J. (1987) Agronomic Studies of the Tropical Legume Canavaliaensiformis, (L), Jackbean in Yucatán, México. Ph.D. Dissertation, University of Bangor, Bangor.

[6]   Triomphe, B.L. (1996) Seasonal Nitrogen Dinamics and Long-Term Changes in Soil Properties under the Mucuna/ Maize Cropping System on the Hillsides on Northern Honduras. Ph.D. Dissertation, Cornell University, Ithaca.

[7]   Thurston, D.H. (1994) Historia de los Sistemas de Siembra con Cobertura Muerta o Sistemas de Tumba y Pudre en América latina. In: Thurston, D.H., Smith, M., Abawi, G. and Kearl, S., Eds., TAPADO Los sistemas de siembra con cobertura, CATIE and CIIFAD, San José, 1-4.

[8]   Quiroga-Madrigal, R.R. (2000) Effects of Maize (Zea mays L.) Cropping Systems and Tropical Legumes on Soil Chemical and Biochemical Properties and Suppressiveness to Soilborne Plant Pathogens. Ph.D. Dissertation, Auburn University, Auburn.

[9]   Belmar, R. and Morris, T. (1994) Effects of Inclusion of Treated Jack Beans (Canavalia ensiformis) and Amino Acid Canavanine in Chicks Diets. Journal of Agricultural Science, 123, 393-405.

[10]   Ayala-Burgos, A.J., Herrera-Díaz, P.E. and Castillo-Caamal, J.B. (2003) Rumen Degradability and Chemical Composition of the Velvet Bean (Mucuna spp.) Grain and Husk. In: Eilittä, M., Mureithi, J., Muinga, R., Sandoval, C. and Szabo, N., Eds., Increasing Mucuna’s Potential as a Food and Feed Crop, Tropical and Subtropical Agroecosystems Faculty of Veterinary Medicine and Animal Science, Autonomus University of Yucatan, Mexico, 2003, 71-76.

[11]   Castillo-Caamal, A.M., Castillo-Caamal, J.B. and Ayala-Burgos, A.J. (2003) Mucuna Bean (Mucuna spp.) Supplementation of Growing Sheep Fed with a Basal Diet of Napier Grass (Pennisetum purpureum). Tropical and Subtropical Agroecosystems, 1, 107-112.

[12]   Chikagwa-Malunga, S.K., Adesogan, A.T., Szabo, N.J., Littell, R.C., Phatak, S.C., Kim, S.C., Arriola, K.G., Huisden, C.M., Dean, D.B. and Krueger, N.A. (2009b) Nutritional Characterization of Mucunapruriens. 3. Effect of Replacing Soybean Meal with Mucuna on Intake, Digestibility, N Balance and Microbial Protein Synthesis in Sheep. Animal Feed Science and Technology, 148, 107-123.

[13]   Houba, J., van Der Lee, J., Novozamsky, I. and Walinga, I. (1988) Soil and Plants Analysis. Part 5, Soil Analysis Procedures. Wageningen University, Wageningen.

[14]   Nelson, W. and Sommers, L. (1987) Organic matter, Methods of Soil Analysis. Part II. Chemical and Soil Science Society of American. Series Agronomy # 9, EUA, Wisconsin.

[15]   Okalebo, R., Gathua, K. and Woomer, L. (1993) Laboratory Methods of Soil Analysis: A Working Manual. KARI, SSSEA, TSBF, UNESCO, Nairobi.

[16]   Anderson, J. and Ingram, J. (1993) Tropical Soil Biology and Fertility, a Handbook of Methods. CAB International, Wallingford.

[17]   Parkin, T., Doran, J. and Franco-Vizcaíno, E. (1996) Field and Laboratory Tests of Soil Respiration. In: Doran, J.W., et al., Eds., Defining Soil Quality for a Sustainable Environment, Special Publication Number 35, SSSA, Madison, 231-245.

[18]   Drinkwater, L., Cambardella, C., Reeder, J. and Rice, C. (1996) Potentially Mineralizable Nitrogen as an Indicator of Biologically Active Soil Nitrogen. In: Doran, J.W. and Jones, A.J., Eds., Methods for Assessing Soil Quality, Special Publication Number 49, SSSA, Madison, 217-229.

[19]   Eilittä, M., Sollenbergër, L.E., Littell, R.C. and Harrington, L.W. (2003) On-Farm Experiments with Maize-Mucuna Systems in the Los Tuxtlas Region of Veracruz, Mexico. I Mucuna Biomass and Maize Grain Yield. Experimental Agriculture, 39, 5-17.

[20]   Keatinge, J.D.H., Qi, A., Wheeler, T.R., Ellis, R.H. and Summerfield, R.J. (1998) Effects of Temperature and Photoperiod on Phenology as a Guide to the Selection of Annual Legume Cover and Green Manure Crops for Hillside Farming Systems. Field Crops Research, 57, 139-152.

[21]   Coultas, C.L., Post, T.J., Jones Jr., J.B. and Hsieh, Y.P. (1996) Use of Velvet Bean to Improve Soil Fertility and Weed Control in Corn Maize Production in Northern Belize. Communications in Soil Science and Plant Analysis, 27, 2171-2196.

[22]   Carsky, R.J., Tarawali, B.M., Chikoye, D., Tian, G. and Sanginga, N. (1998) Mucuna—Herbaceous Cover Legume With Potential For Multiple Uses. Resource and Crop Management, Research Monograph No. 25, International Institute of Tropical Agriculture, Ibadan.

[23]   Fujii, Y., Shibuya, T. and Yasuda, T. (1992) Allelopathy of Velvet Bean: Its Discrimination and Identification of L-DOPA as Candidate of Allelopathic Substances. Japan Agricultural Research Quarterly, 25, 238-247.

[24]   Jensen, E.S. and Castellanos, J.Z. (1994) The Role of Grain Legumes in Nitrogen Cycling of Low Input Sustainable Agroecosystems. 15th World Congress of Soil Science, Volume 5a: Commission IV Symposia, Acapulco, July 1994, 32-45.

[25]   Handayanto, E., Cadisch, G. and Giller, K.E. (1997) Regulation N Mineralization from Plant Residues by Manipulation of Quality. In: Cadisch, G. and Giller, K.E., Eds., Driven by Nature (Plant Litter Quality and Decomposition), CAB International, Wallingford, 175-185.

[26]   Vanlauwe, B., Diels, F., Sanginga, N. and Merckx, R. (1997) Residue Quality and Decomposition: An Unsteady Relationship. In: Cadisch, G. and Giller, K.E., Eds., Driven by Nature (Plant Litter Quality and Decomposition), CAB International, Wallingford, 215-231.

[27]   Buckles, D. and Triomphe, B. (1999) Adoption of Mucuna in the Farming System of Northern Honduras. Agroforestry Systems, 47, 67-91.

[28]   van Kessel, C. and Hartley, C. (2000) Agricultural Management of Grain Legumes: Has It Led to an Increase in Nitrogen Fixation? Field Crops Research, 65, 165-181.

[29]   Singh, S.R. and Allen, D.J. (1979) Cowpea Pest and Diseases. Manual Series No. 2, International Institute of Tropical Agriculture, Ibadan.

[30]   Centre for Overseas Pest Research (1981) Pest Control in Tropical Grain Legumes. Hobbs the Printers of Southampton for Centre for Overseas Pest Research, College, House, Wrights Lane, London, 206.

[31]   Duke, J.A. (1981) Handbook of Legumes of World Economic Importance. Plenum Press, New York.

[32]   Mafoyonga, P., Dzowela, B.H. and Nair, P.K. (1997) Effect of Multipurpose Trees, Age of Cutting and Drying Method on Prunning Quality. In: Cadisch, G. and Giller, K.E., Eds., Driven by Nature (Plant Litter Quality and Decomposition), CAB International, Wallingford, 167-211.

[33]   NAS (1979) Tropical Legumes: Resources for the Future. National Academy of Sciences, Washington DC, 331.