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Root pressure and specific conductivity in temperate lianas: exotic Celastrus orbiculatus (Celastraceae) vs. native Vitis riparia (Vitaceae)

Journal Article

Tibbetts T; Ewers F

2000

American Journal of Botany

87

1272-1278

The exotic temperate liana (woody vine) Celastrus orbiculatus has become a weed in Michigan occurring in many of the same habitats as the native liana Vitis riparia. However C. orbiculatus frequently develops into extensive monospecific infestations while V. riparia does not. Freezing-induced embolism may be responsible for limiting liana distribution. Root pressure has been observed in numerous tropical lianas and temperate species of Vitis and has been implicated as vital to the recovery of xylem function in wide vessels following winter freezes. For both of these co-occurring lianas we investigated root pressure and water conductance as possible explanatory factors for their differential spread. According to our hypothesis C. orbiculatus should have produced greater or more frequent root pressures than V. riparia. However the reverse proved true indicating that root pressure is not a prerequisite for weedy proliferation of C. orbiculatus. Additionally the seasonal patterns of specific conductivity of stem xylem indicate that each species responds differently to environmental constraints. Vitis riparia establishes conductivity early in the growing season before the leaves emerge using root pressure to reverse embolism but loses conductivity with the first freeze in early autumn. Celastrus orbiculatus is slow to establish conductivity depending on new wood production but leafs out sooner than V. riparia and maintains green leaves after the first freeze. Vulnerability curves of xylem to cavitation caused by water stress for the two species indicate that they respond similarly to dehydration. These results indicate that root pressures are not responsible for the invasive success of C. orbiculatus and suggest that other factors must be key to its prolific invasion.

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The Liana Ecology Project is supported by Marquette University and funded in part by the National Science Foundation.