Physiological and Biochemical Responses of Cowpea Genotypes to Water Stress Under Glasshouse and Field Conditions

Falalou, Hamidou; Zombré, Gérard; Braconnier, Serge

doi:10.1111/j.1439-037x.2007.00253.x

Cited by 59 publications

(62 citation statements)

References 22 publications

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“…Previous studies have shown that a dose of nitrogen at planting or coverage benefits the development of bean plants (Hungria et al, 2003;Xavier et al, 2008); hence the absence of the conventional treatment in this study, involving BNF alone, without any source of mineral nitrogen. In this study, seeding in pots with only sand as substrate was also avoided, since previous studies have shown that the bean is strongly hindered by this substrate without organic matter (Melo et al, 2005); moreover, this condition can easily lead to water deficit or high temperature in nodulated roots, which is harmful (Hamidou et al, 2007;Simões-Araújo et al, 2008). Under field conditions plants of all three cultivars exhibited similar behavior regarding gas exchange and photochemical efficiency for both treatments with BNF and not (Fig.…”

Section: Discussionmentioning

confidence: 93%

“…This feature, a short period of peak photosynthesis in the preflowering phase, a common physiological behavior of bean, is perhaps the main reason that the culture responds to a small amount of mineral nitrogen while under BNF Hungary et al, 2003;Xavier et al, 2008;Pelegrin et al, 2009). Another determining factor for the low efficiency of BNF in bean is the occurrence of water stress (Figueiredo et al, 2007;Hamidou et al, 2007), even in Vigna, which is more tolerant of water shortage than Phaseolus (Pimentel and Hébert, 1999). This is especially true if these stressful conditions occur between vegetative and early reproductive stages, when the production of new nodules is stabilizing in cowpea (Senanayake et al, 1987), leading to low efficiency of BNF during the reproductive stage when a high amount of nitrogen is required by the leaves in legumes (Neves et al, 1982;Kaschuk et al, 2010).…”

Section: Discussionmentioning

confidence: 99%

“…Although drought is the main abiotic factor responsible for the reduction in BNF efficiency (Hamidou et al, 2007), in tropical areas, high soil temperature also limits the process (Simões-Araújo et al, 2008). The degree of specificity of certain species of tropical legumes and of tropical strains of rhizobia has been previously discussed (Thies et al, 1991;Simões-Araújo et al, 2008); however, for cowpea, the ease with which this plant is nodulated by several types of rhizobia has discouraged the selection of strains for crop.…”

Section: Introductionmentioning

confidence: 99%

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Leaf Photosynthetic Metabolism and N2 Fixation at the Flowering Stage in Three Genotypes of Cowpea [Vigna unguiculata (L.) Walp.]

Oliveira¹,

Benko‐Iseppon²,

Kido³

et al. 2012

JAS

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Biological nitrogen fixation (BNF) in cultivars of cowpea is not yet understood. The hypothesis proposed by this study is that lack of basic technology, including sufficient mineral nutrition, combined with periods of water shortage during the crop cycle leads to insufficient photosynthetic metabolism in the flowering stage in nodulated plants. Two experiments were conducted in northeastern Brazil, one under field conditions and another in a greenhouse at near optimal conditions. Two of the principal cultivars selected for northeastern (Mulato and Gurguéia) and one for northern Brazil (Milênio) were evaluated regarding physiological, biochemical and biometric variables between the late vegetative and early reproductive stages under mineral nutrition and BNF treatments. Gas exchanges, chlorophyll fluorescence and leaf contents of soluble sugars, amino acids, proteins and chlorophyll of inoculated plants were similar to plants fertilized with mineral nitrogen, in the three cultivars in both experiments, with emphasis on Gurguéia. Leaf nitrogen concentrations and the number and dry weight of nodules were higher in Mulato and Gurguéia compared to Milênio. Milênio and Gurguéia under BNF showed higher total dry weight compared to controls; however, the number of pods per plant was higher in inoculated plants compared to controls. In conclusion, based on these results under non-stressful conditions, cultivars selected for the northeastern region inoculated with an effective rhizobia strain and receiving a mild dose of mineral nitrogen can ensure development similar to that verified in plants fertilized only with correct nitrogen fertilization.

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Section: Discussionmentioning

confidence: 93%

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Leaf Photosynthetic Metabolism and N2 Fixation at the Flowering Stage in Three Genotypes of Cowpea [Vigna unguiculata (L.) Walp.]

Oliveira¹,

Benko‐Iseppon²,

Kido³

et al. 2012

JAS

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“…The expression of these genes is differentially affected by the drought stress applied [2]. Heat-stress was associated with a decrease in the rate of growth and in the final length of barley and wheat coleoptiles [3,4] Osmotic adjustment is becoming increasingly recognised as an efficient drought tolerance mechanism in cultivated plants [5,6], exerting a positive effect-either directly or indirectly-on the productivity of plants that grow under drought conditions [7]. Genotypes with the ability to make osmotic adjustments produce greater yields; for example in chickpea [8,9], pea [10], sorghum [11,12], wheat [13,14], barley [15,16], sunflower [17] and potato [18] .…”

Section: Introductionmentioning

confidence: 99%

Response of coleoptiles to water deficit: growth, turgor maintenance and osmotic adjustment in barley plants (Hordeum vulgare L.)

González¹,

Ayerbe²

2011

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Cereal crop improvement programmes involve the analysis of a great number of lines every year; the availability of a simple, rapid method that would allow the identification of a trait in the early stages of plant development would facilitate the selection process. This work reports two experiments involving the germination of seeds in Petri dishes, performed to study the effect of water deficit on the growth of barley coleoptiles. In one experiment water stress was induced by allowing evaporation from the Petri dishes; in the other water stress was achieved by adding polyethylene glycol 6000.The growth of the control coleoptiles was greater than that of the treatment coleoptiles in all cases, but with differences between the different genotypes. A significant correlation (P < 0.01) was found between the relative growth of the coleoptiles and turgor maintenance in the seedlings. Significant correlations were also seen between the relative growth of the coleoptiles and the osmotic adjustment of the flag leaf (P < 0.05) and the grain weight (P < 0.01) in adult plants. The genotypes that showed the greatest relative growth also showed the greatest capacity for osmotic adjustment in the flag leaf and produced the greatest yields in experiments with adult plants. The results indicate that the growth of coleoptiles subjected to water deficit could be used as a selection criterion in breeding programmes designed to improve the tolerance of barley to drought.

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“…However, significant differences exist among cowpea genotypes in their response to drought (Watanabe et al 1997;Mai-Kodomi et al 1999). Stomatal closure has been identified as a common response to drought in cowpea (Ogbannaya et al 2003;Anya and Herzog 2004;Souza et al 2004;Hamidou et al 2007). 3 The Mozambican National Gene Bank has recently started collecting the country's national heritage of plant genetic resources.…”

Section: Cowpea [Vigna Unguiculata (L) Walp] Is An Important Proteimentioning

confidence: 99%

Evaluation of four Mozambican cowpea landraces for drought tolerance

Martins

Lawlor

Quilambo

et al. 2014

South African Journal of Plant and Soil

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The southern part of Mozambique is vulnerable to drought affecting the country's food production requiring more drought-tolerant crops. Four local cowpea landraces, Massava nhassenje, Timbawene moteado, Namarua and Tete-2, which are currently widely used by local Mozambican farmers, were evaluated for their drought tolerance with the aim to identify the most drought-tolerant landrace and also a phenotypic marker easily applicable for drought tolerance selection under local Mozambican conditions. Above-and below-ground plant characteristics, including biomass, protein content, proteolytic activity, symbiotic nitrogen fixation and nodule number, were measured in a greenhouse under well-watered and drought conditions using vermiculite as plant growth medium. Key finding was that variability exists among the landraces for growth under drought with Timbawene moteado displaying significantly higher leaf dry biomass, leaf and nodule protein content and symbiotic nitrogen fixation (SNF) and lowest increase in proteolytic activity compared to all other landraces. Timbawene moteado 2 might be suitable for inclusion into a future cowpea breeding program in Mozambique and might also be tested in other areas in Mozambique experiencing drought stress. Further, leaf dry biomass might be selected as a simple and informative marker for future screening of the Mozambican cowpea germplasm for drought tolerance.

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Physiological and Biochemical Responses of Cowpea Genotypes to Water Stress Under Glasshouse and Field Conditions

Cited by 59 publications

References 22 publications

Leaf Photosynthetic Metabolism and N2 Fixation at the Flowering Stage in Three Genotypes of Cowpea [Vigna unguiculata (L.) Walp.]

Leaf Photosynthetic Metabolism and N2 Fixation at the Flowering Stage in Three Genotypes of Cowpea [Vigna unguiculata (L.) Walp.]

Response of coleoptiles to water deficit: growth, turgor maintenance and osmotic adjustment in barley plants (Hordeum vulgare L.)

Evaluation of four Mozambican cowpea landraces for drought tolerance

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