首页|Drought tolerance assessment of citron watermelon (Citrullus lanatus var. citroides (LH Bailey) Mansf. ex Greb.) accessions based on morphological and physiological traits

Drought tolerance assessment of citron watermelon (Citrullus lanatus var. citroides (LH Bailey) Mansf. ex Greb.) accessions based on morphological and physiological traits

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  • NSTL
  • Elsevier
Long-term cultivation of citron watermelon under water -constrained environments in sub-Saharan Africa resulted in the selection and domestication of highly tolerant genotypes。 However, information on the magnitude of variation for drought tolerance in citron watermelon is limited for the effective selection of suitable genotypes for breeding。 The objective of this study was to determine variation for drought tolerance among South African citron watermelon landrace accessions for selection and use as genetic stock for drought-tolerance breeding in this crop and closely-related cucurbit crops。 Forty genetically differentiated citron watermelon accessions were grown under non-stress (NS) and drought-stress (DS) conditions under glasshouse environment。 Data of physiological (i。e。, leaf gas exchange and chlorophyll fluorescence parameters) and morphological traits (i。e。, shoot and root system architecture traits, and fruit yield) were collected and subjected to various parametric statistical analyses。 The accessions varied significantly for assessed traits under both NS and DS conditions which aided classification into five groups, namely; A (highly drought-tolerant), B (drought-tolerant), C (moderate drought tolerant), D (drought-sensitive) and E (highly drought-sensitive)。 Drought-tolerant genotypes produced more fruit yield with less water compared with drought-sensitive genotypes。 Several physiological and morphological parameters correlated with fruit yield under DS condition namely: instantaneous water -use efficiency (r = 0。97), leaf dry weight (r = 0。77), total root length (r = 0。46) and root dry weight (r = 0。48)。 The following accessions, namely: WWM-46, WWM-68, WWM-41(A), WWM-15, WWM-64, WWM-57, WWM-47, WWM-37(2), WWM-79, WWM-05 and WWM-50) were identified as highly drought-tolerant and recommended for drought-tolerance breeding in this crop or related cucurbit crops such as sweet dessert watermelon。

Abiotic stressChlorophyll fluorescenceDrought tolerance indicesLeaf gas exchangeRoot phenesSICERARIA MOLINA STANDL.ALTERNATIVE ELECTRON SINKSROOT-KNOT NEMATODEGENETIC DIVERSITYWILD WATERMELONCHLOROPHYLL FLUORESCENCEPOPULATION-STRUCTURECARBON ASSIMILATIONSINGLET OXYGENPHOTOSYSTEM-II

Mandizvo, Takudzwa、Odindo, Alfred Oduor、Mashilo, Jacob、Magwaza, Lembe Samukelo

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Univ KwaZulu Natal

Towoomba Res Ctr

2022

10.1016/j.plaphy.2022.03.037

Plant Physiology and Biochemistry

Plant Physiology and Biochemistry

SCI
ISSN:0981-9428
年,卷(期):2022.180
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