Herbaceous biomass yield in the saline soils during the dry and rainy seasons in the municipality of Pentecoste, CE, Brazil

Francisco Yago Elias De Castro Dias,Daniel Pereira De Oliveira,Claudivan Ferreira De Lacerda,Oriel Herrera Bonilla,Davi Rodrigues Oliveira,Eliseu Marlônio Pereira De Lucena

doi:10.1590/0103-8478cr20190453

Francisco Yago Elias De Castro Dias, Daniel Pereira De Oliveira + Show 4 more

Open Access

https://doi.org/10.1590/0103-8478cr20190453

Copy DOI

Abstract

ABSTRACT: This study was an endeavor undertaken to assess the biomass yield of the species that are native to a particular region characterized by saline soil, in the Irrigated Perimeter Curu-Pentecoste, in the municipality of Pentecoste-CE, corresponding to the qualities of moisture, pH and electrical conductivity (EC) of the soil. The experiment was conducted in six areas, with area 1, the one nearest to the collecting drain, the end having the highest salinity and area 6, the one furthest away from the collecting drain, the end with the lowest salinity. The factorial design with the 2 x 6 scheme was adopted, in which the first and second factors referred, respectively, to the seasons (drought and rain collection) and collection areas. In each area, eight permanent 5 x 5 m plots were demarcated, which included 8 repetitions per treatment. Within each permanent plot the quantity of forage was gathered within an area of 0.25 x 0.25 m. Soil samples were taken from a depth of 0-20 cm, and the EC, pH and soil moisture were determined. The phytomass was oven dried, after which the water content and yield were recorded. Three subsamples per area were burned in a muffle furnace to determine the percentage of ash content. The resultant high pH and EC values, typical of arid soils and related to the significantly low humidity, can cause harm to most of the crops cultivated in the Northeast of Brazil. However, the biomass yield was substantial, indicating that the species occurring there possessed adaptive mechanisms to enable them to tolerate the conditions of saline soil and water stresses prevalent there.

Highlights

Among the principal abiotic stresses, salinity ranks high in causing soil degradation, negatively affecting agricultural yield, in the arid and semi-arid areas (RIBEIRO et al, 2016)
The species listed were identified, with their relative frequencies, when they were gathered during the rainy season: Blutaparon vermiculare (L.) Mears (20.98%), Cyperus rotundus L. (11.89%), Malachra fasciata Jacq. (8.39%), Sesuvium portulacastrum (L.) L. (8.39%), Physalis angulata L. (7.69%), Paspalum ligulare Nees (6.99%), Sesbania exasperata Kunth. (6.29%), Ipomoea asarifolia (Desr.) Roem. & Schult. (5.59%) and Sida rhombifolia L. (5.59%); and those gathered during the dry season included, Blutaparon vermiculare (L.) Mears (52.46%), Cyperus rotundus L. (16.39%), Sesuvium portulacastrum (L.) L. (9.84%), Ipomoea asarifolia (Desr.) Roem. & Schult. (6.56%) and Malachra fasciata Jacq. (6.56%)
No difference was evident in the values of soil electrical conductivity between areas 4 and 5, while during the same season the values of areas 3 and 4 was distinctly higher (p

Summary

Introduction

Among the principal abiotic stresses, salinity ranks high in causing soil degradation, negatively affecting agricultural yield, in the arid and semi-arid areas (RIBEIRO et al, 2016). (ZERAI et al, 2010), and Sarcocornia ambigua (Michx.) Alonso & Crespo (PINHEIRO et al, 2017); this immense potential has not been exploited at all in Brazilian cooking (COSTA; HERRERA, 2016). They have not yet been capitalized upon, to great degree, the plant biomass produced through halophyte cultivation offers several benefits. It can be utilized as human food, cattle feed / fodder and in the manufacture of bioactive products. These plants can find use in the phytoremediation projects to counter the anthropogenic impacts unleashed upon coastal environments including marshes, mangroves and coastal dunes (COSTA & HERRERA, 2016)

Objectives

Methods

Results