Germination and Vigour in Seeds of the Cowpea in Response to Salt and Heat Stress

Nunes, Luma Rayane de Lima; Pinheiro, Paloma Rayane; Pinheiro, Charles Lobo; Lima, Kelly Andressa Peres de; Dutra, Alek Sandro

doi:10.1590/1983-21252019v32n115rc

Cited by 12 publications

(8 citation statements)

References 17 publications

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“…The initial seedling length not differ between cultivars (SL), obtaining an average value of 17.73 cm. Similar results were found in a study by Nunes et al (2019) when evaluating the effect of temperature on cowpea genotypes, which found that there was no significant difference in the initial seedling length of the evaluated genotypes, regardless the temperature regime. The initial dry weight of the seedling was higher for cv.…”

Section: Resultssupporting

confidence: 88%

Initial Growth of Cowpea Cultivars With an Increase of 4.8 ° C in Air Temperature / Crescimento Inicial De Cultivares De Feijão-Caupi Com Aumento De 4,8 ° C Na Temperatura Do Ar

Barros

Guimarães

Silva

et al. 2021

BJD

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Vigorous germination and uniform seedling establishment are determinant and dependent on the performance of cultivars in the face of rising air temperatures. Thus, the objective was to evaluate the initial development of different cultivars of cowpea against the increase of 4.8 ° C in the daily temperature regime. The experiment was carried out in growth chambers, in a 5x2 factorial scheme (cultivars x temperature regimes). It was evaluated: germination percentage, germination speed index, average germination time, average germination speed, average germination speed, the initial seedling length and the

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Section: Resultssupporting

confidence: 88%

Initial Growth of Cowpea Cultivars With an Increase of 4.8 ° C in Air Temperature / Crescimento Inicial De Cultivares De Feijão-Caupi Com Aumento De 4,8 ° C Na Temperatura Do Ar

Barros

Guimarães

Silva

et al. 2021

BJD

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“…Maia et al (2012) found that root length was reduced between 25 and 56%, depending on the cultivar, when comparing 100 mM NaCl concentration to the control treatment. Nunes et al (2019) observed that the cultivar BRS Marataoã showed a reduction in root length at the stress level corresponding to 10 mM NaCl, showing high sensitivity to salt stress. For the concentration of 200 mM of NaCl, Deuner et al (2011) observed that there was only the beginning of primary root protrusion, not being possible to measure this character.…”

Section: Resultsmentioning

confidence: 93%

Comparative study of tolerance of cowpea cultivars to saline stress

Romanoski

Souza-Filho

Pimentel

2023

Rev. Agric. Neotrop.

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O feijão-caupi [Vigna unguiculata (L.) Walp] é amplamente cultivado no Nordeste brasileiro e destaca-se pela sua importância econômica e social. Parte da área de cultivo apresenta algum grau de estresse salino, o que afeta o desempenho da cultura. Os efeitos da salinidade podem ser mitigados com o desenvolvimento de cultivares tolerantes. Objetivou-se com este trabalho avaliar o comportamento de cultivares de feijão-caupi em diferentes níveis de estresse salino, nas fases de germinação e emergência da cultura. Dois ensaios avaliando as fases de germinação e emergência foram conduzidos, sob condições controladas, em esquema fatorial com 11 cultivares em soluções de NaCl com concentração variando de 0 a 120 mM. Houve significativa diferença na resposta das cultivares em função do nível de salinidade aplicado. As cultivares BRS Itaim, BRS Novaera, BRS Pajeu, BRS Tumucumaque, Sempre Verde e Pingo-de-ouro demonstram melhor desempenho nas fases de germinação ou emergência em condições de estresse salino, sendo estas mais promissoras para o estabelecimento inicial da cultura, na presença de salinidade.

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“…Therefore, applying heat stress throughout the crop's development cycle may be advisable to better understand the physiological and genetic basis of cowpea's response to heat stress. High temperatures could impact seed germination and seedling survival for cowpea, especially when seeds are sown deep into the soil [39] and in soils with high salinity [17]. Even when cowpea seeds can survive up to 50 • C day temperatures with an adequate water supply and still produce substantial vegetative biomass [6], their vegetative growth can be impacted negatively by heat stress [9,15,21].…”

Section: Impacts Of Heat Stresses and Tolerance Mechanisms In Cowpeamentioning

confidence: 99%

“…The crop thrives in relatively high-temperature environments [6, 12,13] compared with other legumes. However, during its reproductive phase, cowpea is especially vulnerable to heat stress, resulting in significant yield losses [6,14,15], even though most genotypes have substantially elevated temperature tolerance during the germination and vegetative phases [15][16][17]. A 1 • C increase in night temperature above 16.5 • C between seedling emergence and first flowering has been observed to cause up to a 13.6% decrease in cowpea grain yield [18,19].…”

Section: Introductionmentioning

confidence: 99%

Enhancing Cowpea Tolerance to Elevated Temperature: Achievements, Challenges and Future Directions

Mohammed,

Ongom,

Togola

et al. 2024

Agronomy

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Despite its ability to thrive in high-temperature environments, cowpea productivity can be hampered by heat stress, particularly when night air temperatures exceed 17 °C. The crop’s germplasm pool potentially possesses significant genetic variability that can be harnessed to breed for heat-tolerant varieties. Progress in improving the crop for heat tolerance has been limited, especially under the hot, short-day environments typical of sub-Saharan Africa. Only a few heat-tolerant varieties have been released, partly due to the limited understanding of heat stress tolerance mechanisms and environmental interaction effects on genotypes, as well as imprecise phenotyping. This review contributes to the literature on cowpea heat stress by highlighting key achievements, challenges, and future directions in breeding heat-tolerant cowpea genotypes and by providing additional information from the recent literature. We opine that the genetic variability for heat tolerance-related traits in cowpea has not been sufficiently exploited in developing varieties adapted to the target production environments. Therefore, attention should be given to assessing the crop’s genetic repository by targeting adaptive, morphological, and physiological traits that enhance heat stress tolerance. We propose that breeding programs integrate phenotyping of whole-plant physiological traits and molecular breeding to identify breeder-friendly markers for routine selection. This should be followed by introgression of the heat-tolerant favourable alleles to adapted susceptible varieties using rapid and precise approaches that take advantage of modern genetic and genomic resources such as innovative genetic resources, genomic selection, speed breeding, and genome editing technologies. These tools hold great promise in fast-tracking the development of improved heat-tolerant varieties and incorporating the must-have traits preferred by cowpea farmers and consumers. In view of the likely increase in atmospheric temperature to be occasioned by climate change, there is an urgent need to develop heat-tolerant cowpea varieties to ensure the sustainability of current and future cropping and agri-food systems.

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Germination and Vigour in Seeds of the Cowpea in Response to Salt and Heat Stress

Cited by 12 publications

References 17 publications

Initial Growth of Cowpea Cultivars With an Increase of 4.8 ° C in Air Temperature / Crescimento Inicial De Cultivares De Feijão-Caupi Com Aumento De 4,8 ° C Na Temperatura Do Ar

Initial Growth of Cowpea Cultivars With an Increase of 4.8 ° C in Air Temperature / Crescimento Inicial De Cultivares De Feijão-Caupi Com Aumento De 4,8 ° C Na Temperatura Do Ar

Comparative study of tolerance of cowpea cultivars to saline stress

Enhancing Cowpea Tolerance to Elevated Temperature: Achievements, Challenges and Future Directions

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