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Critical Nitrogen Dilution Curve for Processing Potato in Argentinean Humid Pampas

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Abstract

For processing potato, a new algorithm has been developed to determine nitrogen (N) requirement (NR) applying critical N dilution curve (Nc). The objectives of this work were i) to determine the Nc for processing potato under the growing conditions of the Argentinean Humid Pampas; ii) to compare the parameters of the Nc with those of the Nc obtained by other authors, and iii) to establish the crop NR. The experiments were carried out during four growing seasons. The cultivar Innovator was planted in a randomized complete block design with four N treatments. Dry matter yield and N concentration of shoots and tubers were measured during the growing season. The Nc was determined by selecting data points for which the highest total biomass (W), comprised of shoots and tubers, was obtained and by expressing N concentration as function of W. The N nutrition index (NNI) was determined as the ratio between the actual N concentration (Na) and the Nc. The NR was determined as the difference between actual N uptake and the critical N uptake, divided the N utilization efficiency. A fitted Nc (Nc = 5.30 W–0.42, R2 = 0.92) presented similar values than a published reference Nc. The relation between relative tuber yield (RY) and NNI was expressed by a linear-plateau function and accounted for 69% of the variation. For a NNI ≥ 1 the RY was near 98.7%. With decreasing NNI below 1 the RY decreased. The relation between RY and NR was expressed by a linear-plateau function and accounted for 66% of the variation. For a NR ≥ 0 the RY was near 98%. With decreasing NR, below 0, the RY decreased. Furthermore, the NNI increased linearly with increasing NR, which indicates that the NNI was 0.99 when NR was zero. This study has shown that Nc can be applied in potato crop systems. The NNI calculated from that curve is a reliable indicator of the N stress level during potato’s growing season. The critical N uptake and the actual N uptake enable the calculation of crop NR.

Resumen

En papa para industria, un nuevo algoritmo ha sido desarrollado para determinar el requerimiento de nitrógeno (RN) aplicando la curva de dilución crítica N (Nc). Los objetivos de este trabajo fueron i) determinar la curva crítica de N (Nc) en papa para industria en la Pampa húmeda argentina; ii) comparar los coeficientes del Nc con los obtenidos por otros autores y iii) establecer el RN. Los experimentos fueron realizados durante cuatro estaciones de crecimiento. Se utilizó la variedad Innovador en un diseño de bloque completo y aleatorizado con tres repeticiones y cuatro tratamientos de N. La producción de la materia seca y la concentración de N de la biomasa aérea y tubérculos fueron medidas durante la estación de crecimiento. El Nc fue determinado seleccionando los puntos de referencias para los cuales la biomasa total (W) más elevada considerando a la biomasa aérea y la tubérculos, y expresando la concentración de N como función del W. El índice de nutrición de N (INN) fue determinado como la relación entre la actual concentración de N (Na) y el Nc. El RN fue determinado como la diferencia entre la actual cantidad de N acumulado y la crítica cantidad de N acumulado, dividido la eficiencia de utilización del N. Los coeficientes del Nc (Nc = 5.30 W–0.42 R2 = 0.92) fueron similares a los valores de los Nc de referencias. La relación entre el rendimiento relativo de los tubérculos (RR) y el INN fue expresada por una función lineal-plateau y representó el 69% de la variación. Para un INN ≥1 el RR estuvo cerca del 98.7%. Par un INN ≤ 1 disminuye el RR. La relación entre el RR y el RN fue expresada por una función lineal-plateau y representó el 66% de la variación. Para un INN ≥0 el RR estuvo cerca del 98%. Par un INN ≤ 0 el RR disminuyó. Además, el INN aumentó linealmente con el RN, siendo el INN de 0,99 cuando el RN es cero. Se concluye que el Nc puede ser utilizado como método de diagnóstico en el cultivo de papa. El INN calculado de esa curva es un indicador confiable del nivel de estrés de N durante la estación de crecimiento de papa. La cantidad crítica de N en planta y la cantidad actual de N en planta permitieron calcular el RN en el cultivo.

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References

  • Bélanger, G., J.R. Walsh, J.E. Richards, P.H. Milburn, and N. Ziadi. 2001. Critical nitrogen curve and nitrogen nutrition index for potato in eastern Canada. American Journal of Potato Research 78: 355–364.

    Article  Google Scholar 

  • Bray, R.H., and L. Kurtz. 1945. Determination of total, organic and available forms of phosphorus in soils. Soil Science 59: 39–45.

    Article  CAS  Google Scholar 

  • Bremner, J.M. 1965. Inorganic forms of nitrogen. In Methods od soil analysis, Part 2, ed. C.A. Black et al., 1179–1237. Madison, WI: Agron. Monog 9 ASA and SSSA.

  • Chambenoit, C., F. Laurent, J.M. Machet, and H. Boizard. 2004. Development of a decision support system for nitrogen management on potatoes. In Decision support systems in potato production, ed. D.K.L. Mackerron and A.J. Haverkort, 55–67. The Netherlands: Wageningen.

    Google Scholar 

  • Colnenne, C., J.M. Meynard, R. Reau, E. Justes, and A. Merrien. 1998. Determination of a critical nitrogen dilution curve for winter oilseed rape. Annals of Botany (London) 81: 311–317.

    Article  CAS  Google Scholar 

  • De La Casa, A.C., A.R. Rodriguez, and G. Ovando. 1999. Factibilidad del cultivo de papa de secano en la región central de la provincia de Córdoba (Argentina) basada en la evaluación agroclimática del riesgo de sequía. Agriscientia XVI: 55–62.

    Google Scholar 

  • Duchenne, T., J.M. Machet, and M. Martin. 1997. Potatoes. In Diagnosis of the nitrogen status in crops, ed. G. Lemaire, 119–130. Berlin: Springer.

    Chapter  Google Scholar 

  • Echeverría, H.E. 2005. Papa. In Fertilidad de Suelos y Fertilización de Cultivos, ed. H.E. Echeverría and F.O. García, 365–378. Buenos Aires: Editorial INTA.

    Google Scholar 

  • Gastal, F., and G. Lemaire. 2002. N uptake and distribution in crops: an agronomical and ecophysiological perspective. Journal of Experimental Botany 53(370): 789–799.

    Article  PubMed  CAS  Google Scholar 

  • Gianquinto, G., and S. Bona. 2000. The significance of trends in concentrations of total nitrogen and nitrogenous compounds. In Management of nitrogen and water in potato production, ed. A.J. Haverkort, and D.K.L. Mackerron, 35–53. Wageningen (Netherlands): Wageningen Pers.

  • Giletto, C.M., J.E. Rattín, H.E. Echeverría, and D.O. Caldiz. 2007. Eficiencia de uso de nitrógeno en variedades de papa para industria cultivadas en el sudeste de la provincial de Buenos Aires. Ciencia del Suelo 25(1): 43–52.

    Google Scholar 

  • Greenwood, D.J., G. Lemaire, G. Gosse, P. Cruz, A. Draycott, and J.J. Neeteson. 1990. Decline in percentage N of C3 and C4 crops with increasing plant mass. Annals of Botany (London) 66: 425–436.

    CAS  Google Scholar 

  • Herrmann, A., and F. Taube. 2004. The range of the critical nitrogen dilution curve for maize (Zea mays L.) can be extended until silage maturity. Agronomy Journal 96: 1131–1138.

    Article  Google Scholar 

  • Justes, E., B. Mary, J.M. Meynard, J.M. Machet, and L. Thelier-Huché. 1994. Determination of a critical nitrogen dilution curve for winter wheat crops. Annals of Botany (London) 74: 397–407.

    Article  CAS  Google Scholar 

  • LECO. 2008. Organic aplication notes. [En línea] <http://www.leco.com> [consulta. Febrero 2008].

  • Lemaire, G., and J. Salette. 1984. Relationship between growth and nitrogen uptake in a pure grass stand: I. Environmental effects. Agronomie 4: 423–430 (In French).

    Article  Google Scholar 

  • Lemaire, G., P. Cruz, G. Gosse, and M. Chartier. 1985. Etude des relations entre la dynamique de pr´el`evement d’azote et le dynamique de croissance en mati`ere s`eche d’un peuplement de luzerne (Medicago sativa L.). Agronomie 5: 685–692.

    Article  Google Scholar 

  • Lemaire, G., B. Onillon, G. Gosse, M. Chartier, and J.M. Allirand. 1991. Nitrogen distribution within a lucerne canopy during regrowth: relation with light distribution. Annals of Botany 68: 483–488.

    Google Scholar 

  • Lemaire, G., and M. Chartier. 1992. Relationships between growth dynamics and nitrogen uptake for individual sorghum plants growing at different densities. Proceeding of the 2nd ESA. Congress, UK 92, 98–99.

  • Lemaire, G., M. Khaity, B. Onillon, J.M. Allirand, M. Chartier, and G. Gosse. 1992. Dynamics of accumulation and partitioning of N in leaves, stems, and roots of lucerne (Medicago sativa) in a dense canopy. Annals of Botany (London) 70: 429–435.

    CAS  Google Scholar 

  • Lemaire, G., and F. Gastal. 1997. N uptake and distribution in plant canopies. In Diagnosis of the nitrogen status in crops, ed. G. Lemaire, 3–43. Berlin: Springer.

    Chapter  Google Scholar 

  • Lemaire, G., M.H. Jeuffroy, and F. Gastal. 2008. Diagnosis tool for plant and crop N status in vegetative stage. Theory and practices for crop N management. European Journal of Agronomy 28: 614–624.

    Article  CAS  Google Scholar 

  • Lemaire, G., and F. Gastal. 2009. Quantifying crop responses to nitrogen deficiency and avenues to improve nitrogen use efficiency. In Crop physiology, ed. V.O. Sadras, and D.F. Calderini, 171–211. Elsevier.

  • Littell, R.C., R.J. Freund, and P.C. Spector. 1991. SAS system for linear models, 3rd ed. Cary, NC: SAS Inst.

    Google Scholar 

  • Mackerron, D.K.L., M.W. Young, and H.V. Davies. 1995. A critical assessment of the value of petiole sap analysis in optimizing the nitrogen nutrition of the potato crop. Plant and Soil 172: 247–260.

    Article  CAS  Google Scholar 

  • Penning de Vries, F.W.T. 1982. Crop production in relation to availability of nitrogen. In Simulation of plant growth and crop production, ed. F.W.T. Penning de Vries and H.H. van Laar, 213–221. Wageningen: PUDOC.

    Google Scholar 

  • Plénet, D., and G. Lemaire. 2000. Relationships between dynamics of nitrogen uptake and dry matter accumulation in maize crops. Determination of critical N concentration. Plant and Soil 216: 65–82.

    Article  Google Scholar 

  • Raun, W.R., J.B. Solie, G.V. Johnson, M.L. Stone, R.W. Mullen, K.W. Freeman, W.E. Thomason, and E.V. Lukima. 2002. Improving nitrogen use efficiency in cereal grain production with optical sensing and variable rate application. Agronomy Journal 94: 815–820.

    Article  Google Scholar 

  • Samborski, S.M., N. Tremblay, and E. Fallon. 2009. Strategies to make use of plant sensors-based diagnostic information for nitrogen recommendations. Agronomy Journal 101(4): 800–816.

    Article  CAS  Google Scholar 

  • Salette, J., and G. Lemaire. 1981. Sur la variation de la teneur en azote des graminées fourragères pendant leur croissance: formulaton d`une loi de dilution. C. R. Séances Acad. Sci. Paris 292: 875–878.

    Google Scholar 

  • SAS Institute. 2001. The SAS system for Windows. Release version 6.12. SAS Inst., Cary, NC.

  • Sheehy, J.E., M.J.A. Dionora, P.L. Mitchell, S. Peng, K.G. Cassman, G. Lemaire, and R.L. Williams. 1998. Critical nitrogen concentrations: implications for high-yielding rice (Oryza sativa L.) cultivars in the tropics. Field Crops Research 59: 31–41.

    Article  Google Scholar 

  • Van Oosterom, E.J., P.S. Carberry, and R.C. Muchow. 2001. Critical and minimum N contents for development and growth of grain sorghum. Field Crops Research 70: 55–73.

    Article  Google Scholar 

  • Walkley, A., and A. Black. 1934. An examination of the degtjarett method of determining soil organic matter and a proposed modification of the chromic acid titration method. Soil Science 37: 29–38.

    Article  CAS  Google Scholar 

  • Ziadi, N., M. Brassard, G. Bélanger, A.N. Cambouris, N. Tremblay, M.C. Nolin, A. Claessens, and L. Parent. 2008. Criticla nitrogen curve and nitrogen nutrition index for corn in Eastern Canada. Agronomy Journal 100: 271–276.

    Article  CAS  Google Scholar 

  • Ziadi, N., G. Bélanger, A. Claessens, L. Lefebvre, A.N. Cambouris, N. Tremblay, M.C. Nolin, and L. Étienne. 2010. Determination of a critical nitrogen dilution curve for spring wheat. Agronomy Journal 102: 241–250.

    Article  CAS  Google Scholar 

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Acknowledgments

This work is part of a thesis submitted by Claudia Giletto in partial fulfillment for the requirements for the degree of Doctor Universidad Nacional de Mar del Plata (UNMP). This study was make possible thanks to the financial support of the INTA project AERN 295561 and FCA-UNMP AGR319/10.

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  1. Unidad Integrada FCA UNMdP-INTA, Balcarce. Ruta 226 km 73, 5. CC 276 (B7620EMA), Balcarce, Buenos Aires, Argentina

    Claudia M. Giletto & Hernán E. Echeverría

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  1. Claudia M. Giletto
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  2. Hernán E. Echeverría
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Correspondence to Claudia M. Giletto.

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Giletto, C.M., Echeverría, H.E. Critical Nitrogen Dilution Curve for Processing Potato in Argentinean Humid Pampas. Am. J. Pot Res 89, 102–110 (2012). https://doi.org/10.1007/s12230-011-9226-z

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