Evelyn Roxana Farfán-Vignolo scite author profile

Access to Water and Nitrogen (N) are key challenges in potato crop management that could be optimized through understanding related agronomic and physiological traits. The responses to water deficit and two levels of nitrogen (0 and 200 kg N.ha-1) were assessed here for agronomic and physiological traits for potato genotypes UNICA, Achirana-INTA, and CIP397077.16, chosen for their short vegetative period (90--110 days) and tolerance to water deficit. Nitrogen Use Efficiency (NUE) was greatly reduced in all genotypes under drought, even dropping to nearly zero. Despite this, the tuber yield and total biomass reduction of around 50 % for all genotypes could be alleviated with N application. Normalized Difference Vegetation Index (NDVI), chlorophyll content (SPAD), and Canopy cover (CC) were found to be good indicators for predicting nitrogen deficits and detecting early stress by drought. Overall, each genotype had different strategies to manage N and cope with drought stress. UNICA was the most efficient genotype at using the N present in the soil and tolerating drought stress, while Achirana-INTA was most affected by drought in terms of NUE. Based on the results, it is suggested that maximum fertilizer use efficiency can be obtained with low N rates applied under well-watered conditions. Improved NUE and a greater understanding of the physiological response of crops to drought stress and N fertilization will help to reduce fertilizer use, lessening the effects of water contamination and improving input efficiency.Resumen El acceso al agua y al nitrógeno (N) son retos clave en el manejo del cultivo de la papa, que pudieran optimizarse a través del entendimiento de aspectos agronómicos y fisiológicos relacionados. Aquí se analizaron las respuestas al déficit de agua y a dos niveles de nitrógeno (0 y 200 kg N ha −1 ) para rasgos agronómicos y fisiológicos para los genotipos de papa UNICA, Achirana-INTA y CIP397077.16, seleccionados por su período vegetativo corto (90-110 días) y su tolerancia al déficit de agua. La eficiencia en el uso del nitrógeno (NUE) se redujo grandemente en todos los genotipos bajo sequía, aun bajando a cerca de cero. A pesar de esto, el rendimiento de tubérculo y la reducción total de biomasa de cerca del 50 % para todos los genotipos pudo superarse con la aplicación de N. Se encontró que el Índice de la Diferencia Normalizada de Vegetación (NDVI), el contenido de clorofila (SPAD) y la cubierta del follaje (CC), fueron buenos indicadores para la predicción de los déficits de nitrógeno y para detectar agobio temprano por sequía. Sobre todo, cada genotipo tuvo diferentes estrategias para manejar el N y lidiar con el agobio hídrico. UNICA fue el genotipo más eficiente en el uso del N presente en el suelo y en la tolerancia al estrés por sequía, mientras que Achirana-INTA fue el más afectado por sequía en términos de NUE. Con base en los resultados, se sugiere que la máxima eficiencia en el uso de fertilizante se puede obtener con niveles bajos de N aplicados en condiciones de buena hi...

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Identification of metabolites associated with water stress responses in Solanum tuberosum L. clones

Drapal

Farfán-Vignolo

Gutierrez

et al. 2017

Phytochemistry

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Draft Genome Sequence of Bacillus thuringiensis Strain UNMSM10RA, Isolated from Potato Crop Soil in Peru

Delgado-Silva

Tarazona

Serna

et al. 2020

Microbiol Resour Announc

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