Anatomic and physiological modifications in seedlings of Coffea arabica cultivar Siriema under drought conditions

Emanuelle Ferreira Melo,Christiane Noronha Fernandes-Brum,Fabrício José Pereira,Evaristo Mauro De Castro,Antonio Chalfun-Júnior

doi:10.1590/s1413-70542014000100003

Emanuelle Ferreira Melo, Christiane Noronha Fernandes-Brum + Show 3 more

Open Access

https://doi.org/10.1590/s1413-70542014000100003

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Abstract

Due to the weather changes prognostic for the coming years, the understanding of water deficit and physiological responses of plants to drought becomes an important requirement in order to develop technologies such as mechanisms to assist plants to cope with longer drought periods, which will be essential to maintenance of Brazilian and worldwide production. This study aimed to evaluate ecophysiological and anatomical aspects as well as the nitrate reductase activity in Siriema coffee seedlings subjected to four treatments: Daily irrigated, non-irrigated, re-irrigated 24 hours and re-irrigated 48 hours after different stress periods. Non-irrigation promoted a reduction in leaf water potential being accented from the ninth day of evaluation onwards. Re-irrigation promoted a partial recovery of the plant water potential. Non-irrigated plants showed an increase in stomatal resistance and reduction of transpiration and nitrate reductase activity. In the roots, there was a decrease in nitrate reductase activity under water stress. Leaf anatomical modifications were significant only for the adaxial surface epidermis and palisade parenchyma thickness, this latter characteristic being higher in control plants. Stomatal density and polar and equatorial diameter ratios showed the highest values in plants under water stress. In the roots, differences only in the cortex thickness being bigger in the non-irrigated treatment could be observed. Therefore, Siriema coffee plants under water stress show physiological, biochemical and anatomical modifications that contribute to the tolerance of this genotype to these conditions.

Highlights

Brazil is the main world producer of coffee, which after oil, is the commodity most commercialized worldwide (Da Matta; Ramalho, 2006)
The understanding of water deficit and physiological responses of plants to drought becomes an important requirement in order to develop technologies such as mechanisms to assist plants to cope with longer drought periods, which will be essential to maintenance of Brazilian and worldwide production
These results show that ‘Siriema’’ coffee plant seedlings survive prolonged periods of water deficit and present a fast recovery of their hydric state when newly re-irrigated

Summary

Introduction

Brazil is the main world producer of coffee, which after oil, is the commodity most commercialized worldwide (Da Matta; Ramalho, 2006). Since the beginning of coffee production in Brazil, it has been directly related to economic development and industrialization, it is one of the most important cultures in the country. Coffee tree flowering is induced by rainfall or irrigation after a period of water deficit (Carr, 2001). A physiological response sensitive to the water potential decrease is the modification in protein synthesis and, due to that, enzymes such as Nitrate Reductase (NR) are strongly inhibited (Marur; Mazzafera; Magalhães, 2000). The NR has been used in the evaluation of modifications related to environmental factors, for instance: radiation, hydric status and nitrogen availability (Marur; Mazzafera; Magalhães, 2000; Carelli; Fahl, 2006; Lima et al, 2008)

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