Flooding tolerance of forage legumes

We review waterlogging and submergence tolerances of forage (pasture) legumes. Growth reductions from waterlogging in perennial species ranged from mayor to 50% for Medicago sativa and Trifolium pratense to mayor to 25% for Lotus corniculatus, L. tenuis, and T. fragiferum. For annual species, waterl...

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Detalles Bibliográficos
Autor principal: Striker, Gustavo Gabriel
Otros Autores: Colmer, Timothy David
Formato: Artículo
Lenguaje:Inglés
Materias:
AERENCHYMA
N2 FIXATION UNDER HYPOXIA
NITROGEN DEFICIENCY
PHOTOSYNTHESIS AND STRESS
PLANT SUBMERGENCE STRESS
ROOT HYPOXIA
ROOT POROSITY
Acceso en línea:http://ri.agro.uba.ar/files/intranet/articulo/2017striker.pdf
LINK AL EDITOR
Aporte de:Registro referencial: Solicitar el recurso aquí
Biblioteca Central (FAUBA) de Universidad de Buenos Aires
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100 1 |9 11986  |a Striker, Gustavo Gabriel  |u Universidad de Buenos Aires. Facultad de Agronomía. Instituto de Investigaciones Fisiológicas y Ecológicas Vinculadas a la Agricultura (IFEVA). Buenos Aires, Argentina.  |u CONICET – Universidad de Buenos Aires. Instituto de Investigaciones Fisiológicas y Ecológicas Vinculadas a la Agricultura (IFEVA). Buenos Aires, Argentina.  |u The University of Western Australia. School of Plant Biology. Faculty of Science. Crawley, Australia. 
245 0 0 |a Flooding tolerance of forage legumes 
520 |a We review waterlogging and submergence tolerances of forage (pasture) legumes. Growth reductions from waterlogging in perennial species ranged from mayor to 50% for Medicago sativa and Trifolium pratense to mayor to 25% for Lotus corniculatus, L. tenuis, and T. fragiferum. For annual species, waterlogging reduced Medicago truncatula by ~50%, whereas Melilotus siculus and T. michelianum were not reduced. Tolerant species have higher root porosity (gas-filled volume in tissues) owing to aerenchyma formation. Plant dry mass (waterlogged relative to control) had a positive (hyperbolic) relationship to root porosity across eight species. Metabolism in hypoxic roots was influenced by internal aeration. Sugars accumulate in M. sativa due to growth inhibition from limited respiration and low energy in roots of low porosity (i.e. 4.5%). In contrast, L. corniculatus, with higher root porosity (i.e. 17.2%) and O2 supply allowing respiration, maintained growth better and sugars did not accumulate. Tolerant legumes form nodules, and internal O2 diffusion along roots can sustain metabolism, including N2 fixation, in submerged nodules. Shoot physiology depends on species tolerance. In M. sativa, photosynthesis soon declines and in the longer term (>10 d) leaves suffer chlorophyll degradation, damage, and N, P, and K deficiencies. In tolerant L. corniculatus and L. tenuis, photosynthesis is maintained longer, shoot N is less affected, and shoot P can even increase during waterlogging. Species also differ in tolerance of partial and complete shoot submergence. Gaps in knowledge include anoxia tolerance of roots, N2 fixation during field waterlogging, and identification of traits conferring the ability to recover after water subsides. 
653 |a AERENCHYMA 
653 |a N2 FIXATION UNDER HYPOXIA 
653 |a NITROGEN DEFICIENCY 
653 |a PHOTOSYNTHESIS AND STRESS 
653 |a PLANT SUBMERGENCE STRESS 
653 |a ROOT HYPOXIA 
653 |a ROOT POROSITY 
700 1 |9 68326  |a Colmer, Timothy David  |u The University of Western Australia. School of Plant Biology. Faculty of Science. Crawley, Australia. 
773 0 |t Journal of Experimental Botany  |a Oxford University Press  |w SECS000114  |g Vol.68, no.8 (2017), p.1851-1872, grafs., tbls. 
856 |f 2017striker  |i en reservorio  |q application/pdf  |u http://ri.agro.uba.ar/files/intranet/articulo/2017striker.pdf  |x ARTI201809 
856 |z LINK AL EDITOR  |u https://www.academic.oup.com/jxb 
942 |c ARTICULO 
942 |c ENLINEA 
976 |a AAG 

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