Influence of three agroforestry models on water quality in the Mutiscua municipality, Colombia

Influence of three agroforestry models on water quality

Authors

  • Cristian J. Villamizar Valencia
  • Leonides Castellanos Gonzalez University of Pamplona image/svg+xml
  • Jarol D. Ramón Valencia

DOI:

https://doi.org/10.15665/rp.v21i2.3173

Keywords:

farms, agroecology, sodicity, RAS, EC, hardness

Abstract

The objective was to evaluate the influence of three agroforestry models on water quality in the Mutiscua municipality, Norte de Santander. The three models were made up of the Aliso forest, a blackberry or plum fruit tree, and a short-cycle crop like corn, carrot, and tree tomato. The physicochemical variables of the irrigation water of the 5 farms of each model were determined before implementing the crops and 10 months after planting. An ANOVA was performed between the models before sowing and a comparison by Student's t test between the results before and after, with a confidence level of 5%. The results of the initial sampling did not prevent the use of water from the farms to irrigate the crops of the agroforestry models planned in the municipality. The intervention of the project with the crops implemented induced variable changes in the physical-chemical variables of the water in the sources of supply of the farms. The largest number of influenced variables occurred in the aliso-blackberry-tree tomato model, although the variations did not modify the quality of the water for irrigation, they constitute an alert to counteract the hardness and sodicity risks.

References

FAO. Food and Agriculture Organization. Evaluación de los Recursos Hídricos Renovables. FAO: Global Water Information System. 2016. http://www.fao.org/nr/water/aquastat/main/index.stm

. A. García. Criterios modernos para la evaluación de la calidad del agua para riego. 2012. http://www,ipni,net/publication/ia-lahp,nsf/0/B3BD6ED103283DDD85257A2F005EF91B/$FILE/6%20Art,pdf

. E.K. Medina, O.R. Mancilla, M.M. Larios, R.D. Guevara, J.L. Olguín, O.A. Barreto. Calidad del agua para riego y suelos agrícolas en Tuxcacuesco, Jalisco. IDESIA, vol. 34, no. 6 pp. 51-59, 2016. http://dx.doi.org/10.4067/S0718-34292016005000035

. Y. Maua, A. Porporato. A dynamical system approach to soil salinity and sodicity. Advances in Water Resources, vol. 83, pp. 68–76, 2015. http://dx.doi.org/10.1016/j.advwatres.2015.05.010

M.M., Kadasiddappa, V.P., Rao, K.Y. Reddy,, V. Ramulu, M.U., Devi y S.N. Reddy. (2017). Effect of irrigation (drip/surface) on sunflower growth, seed and oil yield,nutrient uptake and water use efficiency - A review. Agricultural Reviews, vol. 38, no. 2, pp. 152-158, 2017. 10.18805/ag.v38i02.7947

. Gobernación Norte de Santander. Proyecto Plantar. Desarrollo estratégico agroecológico con uso de TICs para el fortalecimiento de cultivos promisorios en el Departamento de Norte de Santander. 2018. http://plantar.gov.co/

Fertilab. Calidad del agua de riego. 2019. https://www,fertilab,com,mx/Sitio/Vista/Toxicidad-Por-Boro-Parte-2-Contenidos-En-Aguas-De-Riego-Y-Tolerancia-De-Los-Cultivos,php,

T.Tartabull, T., y Betancourt, C. (2016). La calidad del agua para el riego. Principales indicadores de medida y procesos que la impactan. Revista Científica Agroecosistemas [seriada en línea], 4(1). pp. 47-61. Recuperado de http://aes.ucf.edu.cu/index.php/ras

CCNNRFS (Comité Consultivo Nacional de Normalización de Regulación y Fomento Sanitario). Modificación a la Norma Oficial Mexicana NOM-127-SSA1-1994, Salud ambiental. Agua para uso y consumo humano. Límites permisibles de calidad y tratamientos a que debe someterse el agua para su potabilización. México D.F. (México): 2000. https://www.dof.gob.mx/nota_detalle.php?codigo=2063863&fecha=31/12/1969#gsc.tab=0

A. Grijalva-Endara, M.E. Jiménez-Heinert, H.X. Ponce-Solórzano. Desmineralización del agua como respuesta ante el cambio climático. RECIMUNDO, vol. 4 no. 4, pp. 22-36, 2020. https://doi.org/10.26820/recimundo/4.(4).octubre.2020.22-36

Servicio de Información Agrario de Murcia (SIAM). Interpretación y Clasificación de Análisis de Agua. 2019). http://siam.imida.es/apex/f?p=101:1:2431220132739809

J. Canovas. Calidad Agronómica de las aguas de riego, Servicio de Extensión Agraria, Ministerio de Agricultura, Pesca y Alimentación, Madrid. 1986. https://www.worldcat.org/title/calidad-agronomica-de-las-aguas-de-riego/oclc/801948851?referer=di&ht=edition

A.D. López, H.M. Ortega, C. Ramírez. Caracterización físico-química del agua residual urbano-industrial y su importancia en la agricultura. Tecnología y Ciencias del Agua, vol. VII, pp. 139-157. 2016.

. R. S. Ayers, Westcot. D.W. Water quality for agriculture. FAO Irrig, and Drain, Paper Nº 29, Roma. 1985.

. E. Cabreras-Molina, L. Hernández-Garciadiego, H., Gómez-Ruíz, Cañizares-Macías, M.P. Determinación de nitratos y nitritos en agua: Comparación de costos entre un método de flujo continuo y un método estándar. Revista de la Sociedad Química de México, 47(1), 88-92, 2003. http://www.scielo.org.mx/scielo.php?script=sci_arttext&pid=S0583-76932003000100014&lng=es&tlng=es

. C.A. Can, A.C. Ramírez, E.M., Ortega, L.C., Trejo, D.J. Cruz. Evaluación de la relación de adsorción de sodio en las aguas del rio Tulancingo, Estado de Hidalgo, México. Terra Lationoamericana, vol. 26, no. 3, pp. 243-252, 2011.

. J. P., Pérez-Díaz, H.M. Ortega-Escobar, C. Ramírez-Ayala, H. Flores-Magdaleno, E.I. Sánchez-Bernal, A. Can-Chulim, O.R. Mancilla-Villa. Concentración de nitrato, fosfato, boro y cloruro en el agua del río Lerma. Ecosistemas y recursos agropecuarios, vol. 6 no. 16, pp. 175-182, 2019.

. C. Betancourt, T, Tartabull, Y. Labaut. El manejo integrado del agua en la agricultura: necesidad de implementación y aspectos vinculados. Revista científica Agroecosistemas, vol. 5, no. 2, pp. 40-54, 2017. http://aes.ucf.edu.cu/index.php/aes/index

Downloads

Published

2023-09-04

Issue

Vol. 21 No. 2 (2023): Julio - Diciembre

Section

Articles

Categories

License

Copyright (c) 2023 Cristian J. Villamizar Valencia, Leonides Castellanos Gonzalez, Jarol D. Ramón Valencia

Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

The authors to publish in this journal agree to the following conditions:

  1. The authors transfer the copyright and give the the journal first publication right of the work registered with Creative Commons Attribution License, which allows third parties to use the published work on the condition of always mentioning the authorship and first publication in this journal.
  2. The authors may perform other independent and additional contractual arrangements for the non-exclusive distribution of the version of the article published in this issue (E.g., Inclusion in an institutional repository or publication in a book), it must be indicated clearly that the work was first published in this journal.
  3. It allows and encourages the authors to publish their work online (eg institutional or personal pages) before and during the review and publication process. It can lead to productive exchanges and greater and faster dissemination of the published work (see The Effect of Open Access)

Instructions to fill out Certificate of Originality and Copyright Assignment

  1. Click here and get the forms of Certificate of Originality and Copyright Assignment  .
  2. In each field to fill out, click and complete the corresponding information.
  1. Once the fields are filled out, at the end of the form copy your scanned signature or digital signature. Please adjust the size of the signature on the form.
  2. Finally, you can save them as pdf files and send them through the OJS platform as an attachment.