Seasonal re-assembly of floodplain aquatic communities in lotic-lentic
seasonal ecotone
- Hiromi Uno,
- Shunsuke Utsumi,
- Kentaro Morita,
- Osamu Kishida,
- Md. Khorshed Alam,
- Junjiro Negishi
Abstract
Seasonal changes in the environment often strongly influence biological
communities. In environmental transition zones, or ecotone, the
environment fluctuates over time between two different types of
environments, and the seasonal change is more pronounced. Although
emphasis has been placed on spatial variation of biota along
environmental gradients, seasonal change has not been well studied
despite the seasonal nature of many ecotones. The study was conducted on
Butokamabetsu River floodplain, Hokkaido, Japan. In this study, we
investigated seasonal biotic re-assembly in floodplain waterbodies
characterized as transitions between lotic and lentic environments, and
further investigated the biological processes behind seasonal
re-assembly. We observed a clear seasonal re-assembly of biological
communities in floodplain waterbodies. From the spring snowmelt season
to the summer low flow season, the biological communities were largely
driven by the hydrological connectivity to the river, represented as the
timing of the lotic-lentic transition during the seasonal flood
recession. In contrast, after a few months of summer low flow period,
the effect weakened over time, and the communities were structured based
more on the basis of the local environment. The seasonal re-assembly was
largely explained by the re-assembly of amphibian and aquatic insect
larvae, the main members of the floodplain aquatic assemblage, which
metamorphose and emerge from the water during the summer period and then
re-distribute in different ways more strongly influenced by local
environmental factors such as water body size, temperature, and
dissolved oxygen levels. Given that biota in ecotones occupy the habitat
for a limited time due to the severe environmental fluctuations, such
seasonal changes as we observed in this study may be widespread in
ecotones. Landscape and local environmental conditions could alternately
shape community structures in different seasons. Further attention to
the temporal aspects of community structure is needed for community
studies as well as for conservation.08 Oct 2024Submitted to Ecology and Evolution 11 Oct 2024Submission Checks Completed
11 Oct 2024Assigned to Editor
14 Oct 2024Reviewer(s) Assigned
29 Oct 2024Review(s) Completed, Editorial Evaluation Pending
29 Oct 2024Editorial Decision: Revise Minor