Selection of Soybean and Cowpea Cultivars with Superior Performance under Drought Using Growth and Biochemical Aspects
Author:
Miranda Rafael de Souza12ORCID, Fonseca Bruno Sousa Figueiredo da3, Pinho Davielson Silva3, Batista Jennyfer Yara Nunes3, Brito Ramilos Rodrigues de2, Silva Everaldo Moreira da3ORCID, Ferreira Wesley Santos3, Costa José Hélio4ORCID, Lopes Marcos dos Santos3, Sousa Renan Henrique Beserra de2, Neves Larissa Fonseca3, Penha José Antônio Freitas3, Santos Amanda Soares2, Lima Juliana Joice Pereira3, Paula-Marinho Stelamaris de Oliveira2, Neto Francisco de Alcântara1, Aguiar Évelyn Silva de5, Santos Clesivan Pereira dos5, Gomes-Filho Enéas4
Affiliation:
1. Plant Science Department, Federal University of Piauí, Teresina 64049-550, Piauí, Brazil 2. Postgraduate Program in Agricultural Sciences, Campus Professora Cinobelina Elvas, Federal University of Piauí, Bom Jesus 64900-000, Piauí, Brazil 3. Agronomic Engineering Course, Campus Professora Cinobelina Elvas, Federal University of Piauí, Bom Jesus 64900-000, Piauí, Brazil 4. Department of Biochemistry and Molecular Biology, Federal University of Ceará, Fortaleza 60451-970, Ceará, Brazil 5. Postgraduate Program in Environmental Sciences, Center of Sciences of Chapadinha, Federal University of Maranhão, Chapadinha 65500-000, Maranhão, Brazil
Abstract
Identifying cultivars of leguminous crops exhibiting drought resistance has become crucial in addressing water scarcity issues. This investigative study aimed to select soybean and cowpea cultivars with enhanced potential to grow under water restriction during the vegetative stage. Two parallel trials were conducted using seven soybean (AS3810IPRO, M8644IPRO, TMG1180RR, NS 8338IPRO, BMX81I81IPRO, M8808IPRO, and BÔNUS8579IPRO) and cowpea cultivars (Aracê, Novaera, Pajeú, Pitiúba, Tumucumaque, TVU, and Xique-xique) under four water levels (75, 60, 45, and 30% field capacity—FC) over 21 days. Growth, water content, membrane damage, photosynthetic pigments, organic compounds, and proline levels were analyzed. Drought stress significantly impacted the growth of both crops, particularly at 45 and 30% FC for soybean and 60 and 45% FC for cowpea plants. The BÔNUS8579IPRO and TMG1180RR soybean cultivars demonstrated the highest performance under drought, a response attributed to increased amino acids and proline contents, which likely help to mitigate membrane damage. For cowpea, the superior performance of the drought-stressed Xique-xique cultivar was associated with the maintenance of water content and elevated photosynthetic pigments, which contributed to the preservation of the photosynthetic efficiency and carbohydrate levels. Our findings clearly indicate promising leguminous cultivars that grow under water restriction, serving as viable alternatives for cultivating in water-limited environments.
Funder
Foundation for Research Support of the State of Piauí National Council for Scientific and Technological Development
Subject
Plant Science,Ecology,Ecology, Evolution, Behavior and Systematics
Reference50 articles.
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