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Coffee husk mulch on soil erosion and runoff: experiences under rainfall simulation experiment

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Coffee husk mulch on soil erosion and runoff: experiences under rainfall simulation experiment

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Moreno-Ramón, H.; Quizembe, S.; Ibañez Asensio, S. (2014). Coffee husk mulch on soil erosion and runoff: experiences under rainfall simulation experiment. Solid Earth and Discussions. 5:851-862. doi:10.5194/se-5-851-2014

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Title: Coffee husk mulch on soil erosion and runoff: experiences under rainfall simulation experiment
Author:
UPV Unit: Universitat Politècnica de València. Departamento de Producción Vegetal - Departament de Producció Vegetal
Universitat Politècnica de València. Escuela Técnica Superior de Ingeniería Agronómica y del Medio Natural - Escola Tècnica Superior d'Enginyeria Agronòmica i del Medi Natural
Issued date:
Abstract:
[EN] The high erosion rates found in the agriculture land make valuable the use of mulches to control the soil and water losses. Coffee husk (Coffea canephora var. robusta) can be one of those mulches. This paper ...[+]
Subjects: Soil erosion , Rainfall simulation , Coffee husk
Copyrigths: Reserva de todos los derechos
Source:
Solid Earth and Discussions. (issn: 1869-9510 ) (eissn: 1869-9529 )
DOI: 10.5194/se-5-851-2014
Publisher:
European Geosciences Union (EGU)
Type: Artículo

References

Abdelkadir, A. and Yimer, F.: Soil water property variations in three adjacent land use types in the Rift Valley area of Ethiopia, J. Arid Environ., 75, 1067–1071, 2011.

Adekalu, K. O., Okunade, D. A., and Osunbitan, J. A.: Compaction and mulching effects on soil loss and runoff from two southwestern Nigeria agriculture soils, Geoderma, 137, 226–230, 2006.

Bakr, N., Weindorf, D. C., Zhu, Y., Arceneaux, A. E., and Selim, H. M.: Evaluation of compost/mulch as highway embankment erosion control in Louisiana at the plot-scale, J. Hydrol., 468–469, 257–267, 2012. [+]
Abdelkadir, A. and Yimer, F.: Soil water property variations in three adjacent land use types in the Rift Valley area of Ethiopia, J. Arid Environ., 75, 1067–1071, 2011.

Adekalu, K. O., Okunade, D. A., and Osunbitan, J. A.: Compaction and mulching effects on soil loss and runoff from two southwestern Nigeria agriculture soils, Geoderma, 137, 226–230, 2006.

Bakr, N., Weindorf, D. C., Zhu, Y., Arceneaux, A. E., and Selim, H. M.: Evaluation of compost/mulch as highway embankment erosion control in Louisiana at the plot-scale, J. Hydrol., 468–469, 257–267, 2012.

Bekalo, S. A. and Reinhart, H.-W.: Fibers of coffee husk and hulls for the production of particleboard, Mater. Struct. 43, 1049–1060, 2010.

Bielders, C. L., Baveye, P., Wilding, L. P., Drees, L. R., and Valentin, C.: Tillage-induced spatial distribution of surface crusts on a sandy Paleustult from Togo, Soil Sci. Soc. Am. J., 60, 843–855, 1996.

Bodí, M. B., Muñoz-Santa, I., Armero, C., Doerr, S. H., Mataix-Solera, J., and Cerdà, A.: Spatial and temporal variations of water repellency and probability of its occurrence in calcareous Mediterranean rangeland soils affected by fire, Catena, 108, 14–25, 2013.

Brodie, I. M. and Misra, R. K.: Evaluation of greenwaste mulch to control runoff quality from landfill sites during frequent storms, Water Air Soil Pollut., 201, 75–85, 2009.

Calvo-Cases, A., Boix-Fayos, C., and Imeson, A. C.: Runoff generation, sediment movement and soil water behaviour on calcareous (limestone) slopes of some Mediterranean environments in southeast Spain, Geomorphology, 50, 269–291, 2003.

Cerdà, A.: Seasonal variability of infiltration rates under contrasting slope conditions in southeast Spain, Geoderma, 69, 217–232, 1996.

Cerdà, A.: The influence of aspect and vegetation on seasonal changes in erosion under rainfall simulation on a clay soil in Spain, Can. J. Soil Sci., 78, 321–330, 1998.

Cerdà, A.: Effects of rock fragment cover on soil infiltration, interrill runoff and erosion, Eur. J. Soil Sci., 52, 59–68, 2001.

Cerdà, A. and Doerr, S. H.: The effect of ash and needle cover on surface runoff and erosion in the immediate post-fire period, Catena, 74, 256–263, 2008.

Choi, I. S., Wi, S. G., Kim, S.-B., and Bae, H.-J.: Conversion of coffee residue waste into bioethanol with using popping pretreatment, Bioresour. Technol., 125, 132–137, 2012.

Donjadee, S. and Chinnarasri, C.: Effects of rainfall intensity and slope gradient on the application of vetiver grass mulch in soil and water conservation, Int. J. Sed. Res., 27, 168–177, 2012.

El Kateb, H., Zhang, H., Zhang, P., and Mosland, R.: Soil erosion and surface runoff on different vegetation covers and slope gradients: a field experiment in sourthern Shaanxi Province, China, Catena, 105, 1–10, 2013.

Ellison, W. D.: Studies of raindrop erosion. Agr. Eng., 25, 131–136 and 181–182, 1944.

Fernández, C., Vega, J. A., Jiménez, E., Vieira, D. C. S, Merino, A., Ferreiro, A., and Fonturbel, T.: Seeding and mulching + seeding effects on post-fire runoff, soil erosion and species diversity in Galicia (NW Spain), Land Degrad. Dev., 23, 150–156, 2012.

Findeling, A., Ruy, S., and Scopel, E.: Modeling the effects of a 9-partial residue mulch on runoff using a physically based approach, J. Hydrol., 275, 49–66, 2003.

Franzluebbers, A. J.: Water infiltration and structure related to organic matter and its stratification with depth, Soil Till. Res., 66, 197-205, 2002.

Gangwar, K. S., Singh, K. K., Sharma, S. K., and Tomar, O. K.: Alternative tillage and crop residue management in wheat after rice in sandy loam soils of Indo-Gangetic plains, Soil Till. Res., 88, 242–252, 2006.

García-Orenes, F., Roldán, A., Mataix-Solera, J., Cerdà, A., Campoy, M., Arcenegui, V., and Caravaca, F.: Soil structural stability and erosion rates influenced by agricultural management practices in a semi-arid Mediterranean agro-ecosystem, Soil Use Manage., 28, 571–579, 2012.

Gholami, L., Hamnidreza, S., and Homaee, M.: Straw Mulching effect on splash erosion, runoff, and sediment yield from eroded plots, Soil Sci.Soc.Am.J., 77, 268–278. 2012.

Grismer, M. E. and Hogan, M. P.: Simulated rainfall evaluation of revegetation/mulch erosion control in the lake Tahoe basin-1: Method assessment, Land degrade. Dev., 15, 573–588, 2004.

Grismer, M.E., and Hogan, M.P.: Simulated rainfall evaluation of revegetation/mulch erosion control in the lake Tahoe basin-3: Soil treatment effects, Land degrade. Dev., 16, 489-501, 2005.

Groen, A. H. and Woods, S. W.: Effectiveness of aerial seeding and straw mulch for reducing post-wildfire erosion, north-western Montana, USA. Int. J. Wildl. Fire 17, 559–571, 2008.

Grosbellet, C., Vidal-Beaudet, L., Caubel, V., and Charpentier, S.: Improvement of soil structure formation by degradation of coarse organic matter, Geoderma, 162, 27–38, 2011.

Hockbridge E.: Healthy soil: healthy people, healthy planet, Soil Health, 7, 9–11, 2012.

Horton, R. E.: An approach towards a physical interpretation of infiltration capacity. Soil Sci. Soc. Am. Pro., 5, 399–417, 1940.

Hsu, S. M., Masce, P. E., Ni, C. F., and Hung, P. H.: Assessment of three infiltration formulas based on model fitting on Richards Equation, J. Hydrol. Eng., 7, 373–379, 2002.

Huang, J., Wu, P., and Zhao, X.: Effects of rainfall intensity, underlying surface and slope gradient on soil in?ltration under simulated rainfall experiments, Catena, 104, 93–102, 2012.

Ibáñez, S.: Estudio de la erosión hídrica en suelos desarrollados sobre margas: métodos de estima en bancales abandonados. (Doctoral Tesis). Universidad Politécnica de Valencia, Departamento de Producción Vegetal, 396 pp., 2001.

Jiménez, M. A., Fernández-Ondoño, E., Ripoll, M. A., Castro-Rodriguez, J., Huntsinger, L., and Navarro, F. B.: Stones and organic mulches improve the Quercus Ilex L. Afforestation success under Mediterranean climatic conditions, Land Degrad. Dev., https://doi.org/10.1002/ldr.2250, 2013.

Jin, K., Cornelis, W. M., Gabriels, D., Schiettecatte, W., De Neve, S., Lu, J., Buysse, T., Wu, H., Cai D., Jin, J., and Harmann, R.: Soil management effects on runoff and soil loss from field rainfall simulation, Catena, 75, 191–199, 2008.

Kasongo, R. K., Verdoodt, A., Kanyankagotem P., Baert, G., and Van Ranst, E.: Coffee waste as an alternative fertilizer with soil improving properties for sandy soils in humid tropical environments, Soil Use Manage., 27, 94–102, 2011.

Kinell, P. I. A.: Raindrop-impact-induced erosion processes and prediction: a review, Hydrol. Process. 19, 2815–2844, 2005.

Kukal, S. S. and Sarjkar, M.: Splash erosion and infiltration in relation to mulching and polyvinyl alcohol application in semi-arid tropics, Arch. Agron. Soil. Sci., 56, 697–705, 2010.

Laws, J. O.: Recent studies in raindrops and erosion. Agr. Eng., 21, 431–433, 1940.

Lee, J.-W., Park, C.-M., and Rhee, H.: Revegetation of decomposed granite roadcuts in Korea: Developing Digger, evaluating cost effectiveness, and determining dimension of drilling holes, revegetation species, and mulching treatment, Land Degrad. Dev., 24, 591–604, 2013.

Le Bissonnais, Y.: Experimental study and modelling of surface crusting processes. . In: Soil erosion – experiments and models, edited by: Bryan R. B., Catena Suppl. 17. Catena Verlag, CAremlingen-Destedt, Germany, 13–28, 1990.

Le Bissonnais, Y., and Singer, M. J.: Crusting, runoff, and erosion response to soil water content and successive rainfalls, Soil Sci. Soc. Am. J., 56, 1898–1903, 1992.

Le Bissonnais, Y., Cerdana, C., Lecomtea, V., Benkhadraa, H., Souchèreb, V., and Martin, P.: Variability of soil surface characteristics influencing runoff and interrill erosion, Catena, 62, 111–124, 2005.

Leys, A., Govers, G., Gillijns, K., and Poesen, J.: Conservation tillage on loamy soils: explaining the variability in interrill runoff and erosion reduction, Eur. J. Soil Sci., 558, 1425–1436, 2007.

Leys, A., Govers, G., Gillijns, K., Berkmoes, E., and Takken, I.: Scale effects on runoff and erosion losses from arable land under conservation and conventional tillage: the role of residue cover, Eur. J. Hydrol., 390, 143–154, 2010.

Ma, I. J. and Li, X.-Y.: Water accumulation in soil by gravel and sand mulches: Influence of textural composition and thickness of mulch layers, J. Arid Environ., 75, 432–437, 2011.

Mashingaidze, N., Madakadze, C., Twomlow, S., Nyamangara, J., and Hove, L.: Crop yield and weed growth under conservation agriculture in semi-arid Zimbabwe, Soil Till. Res., 124, 102–110, 2012.

Montenegro, A. A., Abrantes, J. R. C. B., de Lima, J. L. M. P., Singh, V. P., and Santos, T. E. M.: Impact of mulching on soil and water dynamics under intermittent simulated rainfall, Catena, 109, 139–149, 2013.

Montgomery, D. R.: Soil and Civilization: Time for a Greener Revolution, Food Ethics, 7, 4–6, 2012.

Morgan, R. P. C.: Soil erosion and conservation. Second edition, Longman, ISBN0582244927, 2nd edition, 198 pp., 1995.

Murthy, P. S. and Naidu, M. M.: Sustainable management of coffee industry by-products and value addition – A review, Resour. Conserv. Recy., 66, 45–58, 2012.

Nearing, M. A., and Bradford, J. M.: Single waterdrop splash detachment and mechanical properties of soils. Soil. Sci. Soc. Am. J., 49, 547–552, 1985.

Pandey, C., Soccol, C. R., Nigam, P., Brand, B., Mohan, R., and Roussos, S.: Biotecnological potential of coffee pulp and coffee husk for bioprocesses, Biochem. Eng. J., 6, 153–162, 2000.

Prata, E. R. B. A. P., and Oliveira, L. S.: Fresh coffee husks as potential sources of anthocyanins, LWT-Food Sci. Technol., 40, 1555–1560, 2007.

Prats, S. A., MacDonald, L. H., Monteiro, M., Ferreira, A. J. D., Coelho, C. O. A., and Keizer, J. J.: Effectiveness of forest residue mulching in reducing post-fire runoff and erosion in a pine and eucalypt plantation in north-central Portugal, Geoderma 191, 115–124, 2012.

Poesen, J. W. A., and Lavee, H.: Effects of size and incorporation of synthetic mulch on runoff and sediment yield from interrils in a laboratory study with simulated rainfall, Soil Till. Res., 21, 209–223, 1991.

Saenger, M., Hartge, E.-U., Werthe, J., Ogada, T., and Siagi, Z.: Combustion of coffee husk, Renew. Ener. 23, 103–121, 2001.

Santos, J. C. F. I., Souza, I. F., Mendes, A. N. G., Morais, A. R., Conceição, H. E. O., and Marinho, J. T. S.: Allelophatic effect of coffee and rice husks arranged in soil layers on the germination and initial growth of Amaranthus viridis, Planta Daninha, 19, 197–207, 2001.

Singh, B., Chanasyk, D. S., McGill, W. B., and Nyborg, M. P. K.: Residue and tillage management effects on soil properties of a typic cryoboroll under continuous barley, Soil Till. Res., 72, 117–133, 1994.

Soil Survey Staff: Kellogg Soil Survey Laboratory Methods Manual, Soil Survey Investigations Report No. 42, Version 5.0, edited by: Burt, R. and Soil Survey Staff, US Department of Agriculture, Natural Resources Conservation Service, 2014.

Stavi, I., Lal, R., Jones, S., and Reeder, R. C.: Implications of cover crops for soil quality and geodiversity in a humid-temperate region in midwestern USA), Land Degrad. Dev., 23, 322- 330, 2012.

Telis, P. A.: Estimation of infiltration rates of saturated soils at selected sites in the Caloosahatchee river basin, Southwestern Florida US Geological Survey, Open-File Report 01-65, 2001.

Thierfelder, C. and Wall, P. C.: Effects of conservation agriculture techniques on infiltration and soil water content in Zambia and Zimbabwe. Soil Till. Res., 105, 217–227, 2009.

Thierfelder, C., Mwila, M., and Rusinamhodzi, L.; Conservation agriculture in eastern and southern provinces of Zambia: Long-term effects on soil quality and maize productivity. Soil Till. Res., 126, 246–258, 2013.

Vandervaere, J. P., Vauclin, M., Haverkamp, R., Peugeot, C., Thony, J. L., and Gilfedder, M.: Prediction of crust-induced surface runoff with disc infiltrometer data, Soil Sci., 163, 9–21, 1998.

Zhao, G., Mu, X., Wen, Z., Wang, F., Gao, P.: Soil erosion, conservation, and Eco-environment changes in the Loess Plateau of China, Land Degrad. Dev., 24, 499–510, 2013.

Ziadat, F. M. and Taimeh, A. Y.: Effect of rainfall intensity, slope and land use and antecedent soil moisture on soil erosion in an arid environment, Land Degrad. Dev., 24, 582–590, 2013.

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