Branch propagation, not cladoptosis, permits dispersive, clonal reproduction of riparian cottonwoods

In riparian (floodplain) zones, physical disturbances of floods and ice-scour undercut and topple shrubs and trees into the river where branches are sheared off by tumbling and turbulence. These branch fragments are deposited downstream along bars with sediments that retain moisture and promote adve...

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Bibliographic Details
Published in:Forest ecology and management 2003-12, Vol.186 (1), p.227-242
Main Authors: Rood, Stewart B, Kalischuk, Andrea R, Polzin, Mary Louise, Braatne, Jeffrey H
Format: Article
Language:English
Subjects:
abscission
Aigeiros
Aigeiros cottonwoods
branch fragment deposition
Branches
Clones
Cottonwoods
Dams
dams (hydrology)
Elk River
floodplains
floods
geographical distribution
plant cuttings
plant propagation
plant reproduction
Poplars
Populus
Populus angustifolia
Populus balsamifera
Populus balsamifera subsp. balsamifera
Populus balsamifera subsp. trichocarpa
Populus deltoides
Populus fremontii
propagation material dispersion
Reproduction
Riparian
riparian areas
Rivers
rooting
sediment deposition
shoots
Tacamahaca
Tacamahaca cottonwoods
tree damage
woodlands
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Summary:In riparian (floodplain) zones, physical disturbances of floods and ice-scour undercut and topple shrubs and trees into the river where branches are sheared off by tumbling and turbulence. These branch fragments are deposited downstream along bars with sediments that retain moisture and promote adventitious rooting to produce vigorous clonal saplings. We observed such ‘branch propagation’ along rivers of western North America for Tacamahaca cottonwoods, being common for P. balsamifera (balsam poplar) and P. balsamifera subsp. trichocarpa (black cottonwood) but less common for Populus angustifolia (narrowleaf cottonwood). It was rare for the Aigeiros cottonwoods, P. deltoides (prairie cottonwood) or P. fremontii (Fremont cottonwood). Branch propagation was sparse downstream from dams due to the trapping of branch fragments and sediments by the reservoirs combined with unfavorable patterns of flow regulation. Conversely, branch propagation was abundant after major floods such as for black cottonwoods along the Elk River, British Columbia, following the flood-of-record in 1995. In that case, excavation of saplings from branch fragments in 1997 revealed that 91% originated from sheared branches, 7% from beaver browse and only 1% included the basal enlargement characteristic of physiological abscission. Consistent with this minimal representation, only 3% of abscised branches from narrowleaf, prairie and black cottonwoods successfully propagated under favorable greenhouse conditions in moist sand, in contrast to 96% success of winter shoot cuttings from these species. These studies indicate that branch propagation enables dispersive clonal reproduction for riparian cottonwoods. It provides vigorous saplings and is promoted by geomorphic disturbance and beaver browse. These observations reject the concept of ‘cladoptosis’ which proposed that physiologically abscised cottonwood branches commonly serve as clonal propagules.
ISSN:0378-1127
1872-7042
DOI:10.1016/S0378-1127(03)00276-7