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Response of Medical Cannabis (Cannabis sativa L.) to Nitrogen Supply Under Long Photoperiod

Avia Saloner, Nirit Bernstein

2020Frontiers in Plant Science89 citationsDOIOpen Access PDF

Abstract

The development progression of medical cannabis plants includes a vegetative growth phase under long photoperiod, followed by a reproductive phase under short photoperiod. Establishment of plant architecture at the vegetative phase therefore affects its reproduction potential under short photoperiod. Nitrogen (N) is a main component of many metabolites that involve in central processes in plants, and is therefore a major factor governing plant development and structure. We lack information about the influence of N nutrition on medical cannabis functional-physiology and development, and plant N requirements are yet unknown. The present study therefore investigated the developmental, physiological and chemical responses of medical cannabis plants to N supply (30, 80, 160, 240 and 320 mgL-1 N) under long photoperiod. We report that the morpho-physiological function under long photoperiod in medical cannabis is optimal at 160 mgL-1 N supply, and significantly lower under 30 mgL-1 N, with visual deficiency symptoms, and 75% and 25% reduction in plant biomass and photosynthesis rate, respectively. Nitrogen use efficiency decreased with the increase in N supply, while osmotic potential, water use efficiency, photosynthetic pigments and total N and N-NO3 concentrations in plant tissues increased with N supply. The plant ionome was considerably affected by N supply. Concentrations of K, P, Ca, Mg, Na and Fe in the plant were highest under the optimal N level of 160 mgL-1 N, with differences between organs in the extent of accumulation. The majority of the nutrients tested, including P, S, Zn, Mn, Fe and Cu tented to accumulate in the roots >leaves>stem, while K and Na tented to accumulate in the stem>leaves> roots, and total N, Ca and Mg accumulated in leaves>roots>stem. Taken together, the results demonstrate that the optimal N level for plant development and function at the vegetative growth phase is 160 mgL-1 N. Growth retardation under lower N supply (30-80 mgL-1) results from restricted availability of photosynthetic pigments, carbon fixation and impaired water relations. Excess uptake of N under supply higher than 160 mgL-1 N, promoted as well physiological and developmental restrictions, by ion-specific toxicity or an indirect induced restriction of carbon fixation and energy availability.

Topics & Concepts

photoperiodismPhotosynthesisBiomass (ecology)Cannabis sativaBiologyNutrientNitrogenPlant physiologyHorticultureBotanyAgronomyChemistryEcologyOrganic chemistryPlant nutrient uptake and metabolismPlant responses to water stressGrowth and nutrition in plants
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