Abstract Water stress is one of the main factors that affect both the growth and productivity of agricultural crops. An innovative alternative to improve resistance to this water stress is the application of biostimulants. The objective of this work was to evaluate the effectiveness of biostimulants on the growth, yield, content, and water use efficiency (WUE) at different levels of water stress in the ‘Strike’ snap bean plant. The experiment was carried out under greenhouse conditions in Delicias, Chihuahua during the August-September period of 2021. A completely randomized experimental design was used and the treatments consisted of three types of irrigation: at 100% of field capacity (CC, for capacidad de campo), without water stress and at 75 and 50% of CC, in these treatments with water deficit, the biostimulants: nanoparticles of zinc oxide plus chitosan, Codasil®, Osmoplant®, Stimplex® and salicylic acid, were applied foliarly. The results obtained indicate that the best treatment applied was CC75 + nano Zn + chitosan since it favored the greater accumulation of biomass, fruit production, water content and the efficiency of water use in snap bean plants cv. Strike, which allowed it a better adaptation and tolerance to water stress compared to the treatments CC50 + Stimplex® and CC75 + Stimplex®, that probably the negative effects of water stress were greater than the benefits of the Stimplex® biostimulant applied. Finally, it is concluded that the nanoparticles of zinc oxide plus chitosan was the most efficient biostimulant to relieve and tolerate the effects of water stress, so it is considered an innovative alternative to maintain and improve the growth and production of the crop against water stress problems.

Resumen El estrés hídrico es uno de los principales factores que afectan tanto el crecimiento y la productividad de los cultivos agrícolas. Una alternativa innovadora para mejorar la resistencia a este estrés hídrico es la aplicación de bioestimulantes. El objetivo de este trabajo fue evaluar la efectividad de bioestimulantes sobre el crecimiento, rendimiento, contenido y eficiencia de uso del agua (EUA) ante distintos niveles de estrés hídrico en la planta de frijol ejotero ‘Strike’. El experimento se llevó a cabo bajo condiciones de invernadero en Delicias, Chihuahua durante el periodo agosto-septiembre del 2021. Se empleó un diseño experimental completamente al azar y los tratamientos consistieron en tres tipos de riego: al 100% de capacidad de campo (CC), sin estrés hídrico y a 75 y 50% de CC, en estos tratamientos con déficit hídrico se aplicaron de forma foliar los bioestimulantes: nanopartículas de óxido de zinc más quitosano, Codasil®, Osmoplant®, Stimplex® y ácido salicílico. Los resultados obtenidos indican que el mejor tratamiento aplicado fue CC75 + nano Zn + quitosano ya que favoreció la mayor acumulación de biomasa, producción de frutos, contenido de agua y la eficiencia de uso del agua en plantas de frijol ejotero cv Strike, las cuales le permitieron una mejor adaptación y tolerancia al estrés hídrico en comparación a los tratamientos CC50 + Stimplex® y CC75+ Stimplex®, que probablemente los efectos negativos del estrés hídrico fueron superiores a los beneficios del bioestimulante Stimplex® aplicado. Se concluye que las nanopartículas de óxido de zinc más quitosano fue el bioestimulante más eficiente para aliviar y tolerar los efectos del estrés hídrico, se considera una alternativa innovadora para mantener y mejorar el crecimiento y la producción del cultivo frente a problemas de estrés hídrico.

The aim of this study was to evaluate and compare the percentage content of fatty acids (FA) of 54 rainbow trout fresh and frozen fillets. Frozen fillets were stored at -15ºC for 45 and 90 days. Saturated (SFA), monounsaturated (MUFA), polyunsaturated (PUFA), omega-6 (n-6) and omega-3 (n-3) fatty acids were determined by gas chromatograph coupled to mass spectrometry. The results indicated that during frozen storage, SFA and MUFA content increased by 32.63 and 9.25%, respectively, while PUFA content decreased by 25.3%, n-6 by 12.4% and n-3 by 32.55%. These changes were more significant (P ≤ 0.05) during the first 45 d of storage. It was concluded that the frozen storage had a negative impact on meat quality of rainbow trout due to the reduction of PUFA, n-3/n-6, polyene index and PUFA/ SFA and the increase of the SFA, and atherogenic and thrombogenic indexes, which meant a substantial loss of nutritional value in the fillets of rainbow trout.