Physiological and anatomical traits associated with tolerance to long‐term partial submergence stress in the Lotus genus: responses of forage species, a model and an interspecific hybrid

Cattle production based on natural pastures is often subject to flooding periods, which affect plant performance and as a result, forage production. Although most forage legumes are not tolerant to flooding, Lotus spp. are outstanding alternatives, since species, such as L. tenuis (Lt) and L. cornic...

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Published inJournal of agronomy and crop science (1986) Vol. 205; no. 1; pp. 65 - 76
Main Authors Antonelli, Cristian Javier, Calzadilla, Pablo Ignacio, Vilas, Juan Manuel, Campestre, María Paula, Escaray, Francisco José, Ruiz, Oscar Adolfo
Format Journal Article
LanguageEnglish
Published Berlin Wiley Subscription Services, Inc 01.02.2019
Subjects
adventitious roots
aerenchyma
Cattle production
Cultivars
diploidy
Flooding
flooding pampa
flooding tolerance
Forage
forage legumes
forage production
forage quality
hybrids
Interspecific
interspecific hybridization
legume
Legumes
Lotus corniculatus
Lotus corniculatus var. japonicus
Lotus glaber
new variety
Pasture
pastures
Physiology
Recovery
Submergence
tetraploidy
waterlogging
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ISSN0931-2250
1439-037X
DOI10.1111/jac.12303

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Summary:Cattle production based on natural pastures is often subject to flooding periods, which affect plant performance and as a result, forage production. Although most forage legumes are not tolerant to flooding, Lotus spp. are outstanding alternatives, since species, such as L. tenuis (Lt) and L. corniculatus (LcT), have high forage quality and are adaptable to different environments. We recently obtained a L. tenuis × L. corniculatus hybrid (LtxLc) with potential new cultivar traits, although its tolerance to flooding stress has not yet been evaluated. In the present study, the performance of LtxLc, its parental diploid accessions, the model legume L. japonicus and tetraploid LcT were evaluated under 55 days of partial submergence stress and a 35‐day recovery period. Physiological, morphological and anatomical traits were analysed, showing that tolerance to partial submergence was positively associated with aerenchyma and adventitious root formation and relative growth rates. Overall, Lt and LtxLc showed the best responses under stress and during the recovery period. Nevertheless, the higher forage value of LtxLc makes it recommendable for use in environments affected by flooding. Our results could be used as breeding criteria for the generation of new cultivars tolerant to partial submergence stress.
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ISSN:0931-2250
1439-037X
DOI:10.1111/jac.12303