Ajuste de las normas de demanda de agua para cultivos acompañantes en rotaciones de cultivos de arroz

  • Roman S. Masnyi Russian Scientific Research Institute of Land Improvement Problems
  • Sergey M. Vasilyev Science of Russian Scientific Research Institute of Land Improvement Problems
  • Georgy T. Balakay Russian Scientific Research Institute of Land Improvement Problems
  • Lidiya M. Dokuchayeva Russian Scientific Research Institute of Land Improvement Problems
  • Rita Y. Yurkova Russian Scientific Research Institute of Land Improvement Problems
DOI: https://doi.org/10.46925//rdluz.36.09
Palabras clave: agua, cultivos, producto agrícola, arroz, riego

Resumen

La relevancia del estudio se debe a la necesidad de ahorrar recursos hídricos. El propósito del estudio es determinar los factores de corrección microclimáticos para monitorear y ajustar las normas de demanda de agua para los cultivos acompañantes en las rotaciones de cultivos de arroz para varias zonas de humectación natural en Rusia. Los principales métodos de estudio son el experimental (campo) y el análisis comparativo de los datos obtenidos con cálculos teóricos. Resultados del estudio: Se presentan factores de corrección para calcular la evapotranspiración/evaporación de los cultivos acompañantes en las rotaciones de cultivos de arroz, que varían en las regiones de Rusia desde Ccr= 0,75 a Ccr = 0,94, respectivamente, a Cm 0,2-0,3 a Cm 0,8-1,0 y se determina que en la rotación de cultivos de arroz es necesario tener en cuenta las reservas de humedad productiva adicional residual después del arroz, que se encuentra en el metro de capa de suelo - de 60 mm en regiones con Cm = 0,2-0,3 a 84 mm con cm 0,8-0,1. Importancia práctica: El uso de factores de corrección microclimáticos para ajustar las normas de demanda de agua para los cultivos acompañantes permite calcular y justificar el volumen de agua para riego de estos cultivos en las rotaciones de cultivos de arroz y ahorrar recursos hídricos.

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Biografía del autor/a

Roman S. Masnyi, Russian Scientific Research Institute of Land Improvement Problems

Candidate of Military Sciences, Acting Director of Russian Scientific Research Institute of Land Improvement Problems, Novocherkassk (Rostov region), Russia.

Sergey M. Vasilyev, Science of Russian Scientific Research Institute of Land Improvement Problems

Doctor of Technical Sciences, Professor, First Deputy Director of Science of Russian Scientific Research Institute of Land Improvement Problems, Novocherkassk (Rostov region), Russia.

Georgy T. Balakay, Russian Scientific Research Institute of Land Improvement Problems

Doctor of Agricultural Sciences, Professor, Сhief Researcher of Russian Scientific Research
Institute of Land Improvement Problems, Novocherkassk (Rostov region), Russia.

Lidiya M. Dokuchayeva, Russian Scientific Research Institute of Land Improvement Problems

Candidate of Agricultural Sciences, Leading Researcher of Russian Scientific Research Institute of Land Improvement Problems, Novocherkassk (Rostov region), Russia.

Rita Y. Yurkova, Russian Scientific Research Institute of Land Improvement Problems

Candidate of Agricultural Sciences, Senior Researcher of Russian Scientific Research Institute of Land Improvement Problems, Novocherkassk (Rostov region), Russia.

Citas

Allen, R. G., Pereira, L. S., Raes, D., Smith, M. (1998). Crop evapotranspiration ‐ Guidelines for computing crop water requirements. FAO Irrigation and drainage. 56 р., Rome (Italy): FAO. https://appgeodb.nancy.inra.fr/biljou/pdf/Allen_FAO1998.pdf.

Balakay, G.T., Dokuchayeva, L.M., Yurkova, R.E. (2018). On the issue of developing norms of rice water demand and water disposal from rice irrigation systems. Scientific Journal of the Russian Research Institute of Problems of Land Reclamation, 3(31), 1-22. http://www.rosniipm-sm.ru/dl_files/udb_files/udb13-rec557-field6.pdf. - DOI: 10.31774/2222-1816-2018-3-1-22.

Balakay, G.T., Balakay, N.I. (2017) Methodology for calculating and adjusting the timing of irrigation of agricultural crops. Scientific journal of the Russian Research Institute of Problems of Land Reclamation, 1 (25), 32–49. www.rosniipm -sm .ru/dl_files/udb_files/udb13- rec461-field6.pdf.

Belder, P., Bouman, B. A. M., Spiertz, J. H. J., Lu, G. (2007). Exploring options for water savings in lowland rice using a modelling approach. Agricultural Systems 92, 91‐114. https://www.sciencedirect.com/science/article/pii/S0308521X06000382.

Calculation of irrigation regimes for agricultural crops and design standards for water demand: methodological recommendations: under edition of G.V. Olgarenko (2012). Kolomna: Inlight LLC. –151 p.

Consolidated norms of water demand for irrigation of agricultural crops in the Central, Volga, Ural, Siberian, South and North Caucasian federal districts (2013). http://mcx- dm.ru/sites/all/files/normi_vodopotrebnosti.pdf.

Dubenok, N.N., Kuznetsova, V.V., Borodychev, V.V., Adyaev, S.B. (2014) Spring barley is a promising crop of rice crop rotations in Kalmykia. Bulletin of the Nizhnevolzhsky agro - university complex, 1 (33). https://cyberleninka.ru/article/v/yarovoy-yachmen- perspektivnaya-kultura-risovyh-sevooborotov-kalmykii.

GOST R 58331.3-2019. Reclamation systems and structures. Water demand for irrigation of agricultural crops. General requirements. - Introduction. 2019-03-15. - M.: Standartinform, 2019. -25 p.

Hydraulic and optimization calculations of main and distribution canals of different order of the irrigation system ("RasChet.canal"): certificate of Federal Institute of Industrial Property for the state registration of computer software / V.N. Shchedrin [and others], 2014619417 dated of 16.09.14; declared of 31.07.14, 2014617618, 9 p.

Ilyinskaya, I.N. (2001). Rationing of water demand for irrigation of agricultural crops in the North Caucasus: monograph. Novocherkassk: South Russian State Technical University, 164 p.

Kravchenko, A.V. (2007). Substantiation of technological methods of cultivation of soybeans in rice crop rotation: abstract dissertation of the candidate of agricultural sciences. Volgograd. https://dlib.rsl.ru/viewer/01003056960#?page=1.


Md. Redwanur, R., Sheikh, H. B. (2014). Effect of Alternate Wetting and Drying (AWD) Irrigation for Boro Rice Cultivation in Bangladesh. Agriculture, Forestry and Fisheries, 3, 86-92.http://www.sciencepublishinggroup.com/journal/paperinfo?journalid=119&paperId=600447 1.

Melikhov, V.V., Popov, A.V., Dedova, E.B., Dedov, A.A. (2016). Cultivation of dyeing safflower in the rice crop rotation of the Sarpinskaya lowland. Bulletin of the Nizhnevolzhsky agro - university complex. 3 (43). https://cyberleninka.ru/article/n/vozdely-vanie-saflora- krasilnogo-v-risovom-sevooborote-sarpinskoy-nizmennosti.

Methodological guidelines for the creation of system of norms for water demand and water disposal in irrigated agriculture (1984). Minsk: Central Research Institute for the Integrated Use of Water Resources. 129 p.

Mom, R. (2007). A high spatial resolution analysis of the water footprint of global rice consumption. mom.rjc@gmail.com, https://www.utwente.nl/en/et/wem/education/msc - thesis/2007/mom.pdf.

Norms of water demand and environmentally safe irrigation regimes for agricultural crops: recommendations (2000). Edited by A.V. Kolganov, V.N. Shchedrin, Southern Research Institute of Hydraulic Engineering and Land Reclamation. - M.: Meliovodinform. - 152 p.

Olgarenko, G.V., Vasilyev, S.M., Balakay, G.T. (2019). The concept of the State program "Restoration and development of the reclamation complex of the Russian Federation for the period 2020-2030". Novocherkassk: Russian Research Institute of Land Reclamation Problems, 128 p.

Rakitina, N.V., Borodychev V.V., Adyaev, S.B. (2013). Sugar sorghum is a promising crop of rice crop rotation. Bulletin of the Nizhnevolzhsky agro-university complex, 1 (29). https://cyberleninka.ru/article/n/saharnoe-sorgo-perspektivnaya-kultura-risovogo- sevooborota.

Smykov, A.V. (2005). Influence of alfalfa on the meliorative state of brown semi-desert soil and rice yield in the Sarpinskaya lowland: abstract dissertation of the candidate of agricultural sciences: Saratov, 2005 http://earthpapers.net/vliyanie-lyutserny-na- meliorativnoe-sostoyanie-buroy-polupustynnoy-pochvy-i-urozhaynost-risa-v-sarpinskoy- nizmennosti-1.

Vasilyev, S.M., Balakay, G.T., Dokuchayeva, L.M., Yurkova, R.E., Gonzalez-Gallego, M.R., Netseplyaev, D.A. (2018). Computer software 2018666607. Calculation of the norms of water demand for rice and norms of water disposal from the rice field, 2018663851; declared of 03.12.18; published of 19.12.18.

Victoriano, J. P., Wang, Y. M. (2017). Impact of Water Management on Rice Varieties, Yield, and Water Productivity under the System of Rice Intensification in Southern Taiwan. Water, 9(1), 3. https://www.mdpi.com/2073-4441/9/1/3/htm.

Wu, X. H., Wang, W., Yin, C. M., Hou, H. J., Xie, K. J., Xie, X. L. (2017). Water consumption, grain yield, and water productivity in response to field water management in double rice systems in China. Plos one. https://journals.plos.org/plosone/article?id=10.1371/journal.pone.0189280
Publicado
2022-01-13
Cómo citar
Masnyi, R. S., Vasilyev, S. M., Balakay, G. T., Dokuchayeva, L. M., & Yurkova, R. Y. (2022). Ajuste de las normas de demanda de agua para cultivos acompañantes en rotaciones de cultivos de arroz. Revista De La Universidad Del Zulia, 13(36), 126-139. https://doi.org/10.46925//rdluz.36.09
Número
Vol. 13 Núm. 36 (2022): Revista de la Universidad del Zulia, Vol. 13, Núm. 36, Enero-Abril 2022
Sección
Artículos

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