Flood tolerance of four tropical tree species

Many seasonally flooded habitats in the tropics are dominated by one or a f ew tree species. We tested the hypothesis that the inability to tolerate fl ooding restricts most species from becoming established in flood-prone habi tats. We compared morphological and physiological responses to flooding in seedlings of Prioria copaifera Griseb., a species that farms monodominant s tands in seasonally flooded habitats, and in three species confined to floo d-free sites; namely Calophyllum longifolium Willd., Virola surinamensis Au bl. and Gustavia superba (H.B.K.) Berg. Flooding reduced photosynthesis at Day 45 in all species by 10-30%. By Day 90, photosynthesis returned to the control rate in Prioria, but not in the other species. Flooding reduced stomatal conductance by 25-35% in all speci es except Calophyllum, and it reduced leaf area growth by 44% in Virola, bu t not in the other species. All species survived 90 days of flooding withou t mortality, leaf chlorosis, leaf necrosis, or leaf abscission. Flooding reduced root:shoot ratio significantly in Gustavia and Calophyllum , but not in the other species, and it reduced maximum root depth by 29% in Prioria, but by 61% or more in the species from flood-free habitats.