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Plant sciences, sustainable farming systems and food quality
RESEARCH ARTICLE

Cropping calendar, agroclimatic and agroecological zoning for rainfed maize (Zea mays L.) under different rainfall scenarios in a semi-arid region of Brazil

Danilo Batista Nogueira A , Alfredo Mendonça de Sousa B , Alexsandro Oliveira da Silva https://orcid.org/0000-0001-5528-9874 A * , Bruno Ricardo Silva Costa C , Rafaela da Silva Arruda A and Fernando Ferrari Putti C
+ Author Affiliations
- Author Affiliations

A Universidade Federal do Ceará, Departamento de Engenharia Agrícola, Campus do Pici, Avenida Mister Hull, N° 2.977, Bloco 804, Fortaleza, CE CEP 60356-001, Brazil. Email: danilo.b.n@alu.ufc.br, rafaelaarruda@gmail.com

B Universidade Federal do Ceará, Departamento de Ciências do Solo, Campus do Pici, Avenida Mister Hull, N° 2.977, Bloco 807, Fortaleza, CE CEP 60356-001, Brazil. Email: alfredomendonca121@gmail.com

C Universidade Estadual Paulista, Fac. de Ciências Agronômicas, Campus de Botucatu, Caixa Postal 237, Botucatu, SP CEP 18603-970, Brazil. Email: bruno.ricardo.silva@hotmail.com, fernando.putti@unesp.br

* Correspondence to: alexsandro@ufc.br

Handling Editor: Davide Cammarano

Crop & Pasture Science 75, CP23117 https://doi.org/10.1071/CP23117
Submitted: 15 May 2023  Accepted: 23 April 2024  Published: 13 May 2024

© 2024 The Author(s) (or their employer(s)). Published by CSIRO Publishing

Abstract

Context

The productivity of crops is influenced by the available net water balance, which relies on a complex interplay of edaphic and climatic factors. In this sense, rainfall is the leading water input for crop growth and yield, especially in water-scarce regions under semi-arid climates worldwide.

Aims

This study aimed to define the optimum cropping calendar and the agroclimatic and agroecological zones for rainfed maize in the state of Ceará, which is predominantly located within the Brazilian semi-arid region, assuming different rainfall scenarios.

Methods

We considered the subdivision of the study area into eight homogeneous precipitation regions according to the regional rainfall pattern. The climatic water balance for each region over two decades was calculated from historical weather data series, assuming three rainy scenarios: dry, regular, and rainy. The agroclimatic zoning was defined through the crop water balance results, soil classification, land use and occupation, slope and temperature, weighted through a multi-criteria decision analysis based on the Analytic Hierarchy Process.

Key results

The recommended planting period was broader in rainy conditions. However, there may be some dry spells between two 10-day intervals of the calendar, which impair plant growth depending on their intensity. For the dry scenario, the agroclimatic zoning showed that the marginal water deficiency covered 96.55% of the study area.

Conclusions

Rainfed maize cultivated under the semi-arid climate of Ceará state is viable in rainy conditions, partially restricted in regular years, and not recommended in dry years.

Implications

This study emphasises the importance of climate monitoring in effective planning for rainfed maize cultivation in semi-arid regions.

Keywords: climatic conditions, crop management, edaphic factors, food security, semi-arid climate, water balance, yield gap, Zea mays.

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