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Influence d'une hydromorphie modérée ou sévère sur la production de biomasse et les échanges gazeux de plants de peuplier euraméricain

Béjaoui, Zoubeir ; Albouchi, Ali ; Abassi, Mejda ; Aouni, Mohamed Hédi El

Canadian journal of forest research, 2006-10, Vol.36 (10), p.2654-2665 [Periódico revisado por pares]

Ottawa, Canada: NRC Research Press

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  • Título:
    Influence d'une hydromorphie modérée ou sévère sur la production de biomasse et les échanges gazeux de plants de peuplier euraméricain
  • Autor: Béjaoui, Zoubeir ; Albouchi, Ali ; Abassi, Mejda ; Aouni, Mohamed Hédi El
  • Assuntos: Cloning ; Forest ecology ; Forestry research ; Sciences biologiques et medicales ; Sciences biologiques fondamentales et appliquees. Psychologie ; Seedlings ; Sylviculture ; Timberline
  • É parte de: Canadian journal of forest research, 2006-10, Vol.36 (10), p.2654-2665
  • Descrição: Seedlings of three poplar clones (I-488, Rimini, and D-64) grown in plastic pots were submitted to three water regimes: (1) irrigated and well-drained control (T); (2) flooded with running water (Hr = 6 mg·L -1 of O 2 ); and (3) flooded with stagnant water (Hs = 2 mg·L -1 of O 2 ). A permanent water table was maintained at 5 cm above the soil surface for 2 months. The Hr and Hs treatments simulate the conditions of hydromorphic soils chosen for planting poplar in Tunisia where the attempts failed because of the lack of knowledge relating to the degree of tolerance of this species to waterlogging. Waterlogging significantly reduced growth (leaf initiation was inhibited, root decay and early leaf abscission occurred) and modified photosynthetic activity (stomatal closure and reduction of CO 2 net assimilation rates). Intracellular CO 2 values did not significantly differ between treatments (T, Hr, and Hs), indicating that both stomatal and nonstomatal limitations could be responsible for reducing CO 2 net assimilation. However, the degree of disruption varied according to the treatment. Stagnant regime Hs had negative and irreversible effects on CO 2 net assimilation rates and internal CO 2 conductance for the full length of the treatments with stomatal closure after 40 days in Rimini and D-64 clones. The Hr treatment produced limited reactions; the development of hypertrophied lenticels and adventitious roots alleviated the negative effects of waterlogging with a distinct recuperation of net photosynthesis and CO 2 internal conductance particularly for clone I-488. In the same way, the development of root adaptations was greater for I-488 than Rimini and D-64 clones, probably indicating a higher tolerance to flooding in the former clone. This approach could be used to select the clones intended for afforestation of the nonsaline hydromorphic areas.
  • Editor: Ottawa, Canada: NRC Research Press
  • Idioma: Inglês;Francês
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  • Realização: ABCD-USP USP   Logos de Redes Sociais: Freepik

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