-
maintain water quality
-
support native fish condition & macroinvertebrate abundance/diversity
-
longitudinal connectivity - fish passage
-
support ecosystem function (e.g. connectivity, dispersal, primary production)
-
improved condition and cover of native in-channel vegetation (especially on banks)
-
discourage terrestrial vegetation encroachment on lower bank
-
support ecosystem function
-
breeding and movement of native fish
|
Physical habitat and bank condition
|
What did CEW contribute to:
-
provision of productive habitat (e.g. slackwaters) for the recruitment, growth and survival of larval and juvenile fish?
-
provision of diverse and productive macroinvertebrate habitats?
-
inundating specific riparian vegetation zones and creating hydraulic habitats that favour the dispersal and deposition of plant seeds and propagules?
-
How does CEW affect bank erosion and deposition?
-
How does the amount of river bank erosion affect vegetation responses to environmental water delivery?
|
|
Likely to be on track – based modelling with links being a bit tenuous with only a couple of years data.
Strategic ewatering does not appear to have contributed to bank erosion (Webb et al. 2017).
|
Stream metabolism
|
How does the timing and magnitude of CEW delivery affect rates of Gross Primary Productivity and Ecosystem Respiration in the lower Goulburn River?
|
|
There was no consistent immediate effect of flow increases (including those from CEW delivery) across the 4 sites on rates of either GPP or ER. However, there was a positive effect of flow rate on total amounts of GPP and ER (Webb et al. 2017).
|
How do stream metabolism responses to CEW in the lower Goulburn River differ from CEW responses in the Edward Wakool system where the likelihood of overbank flows is higher and nutrient concentrations are generally much lower?
|
|
Goulburn River compared to the Edward-Wakool. The actual CEW and natural flows in the Edward Wakool prevented determination of flow metabolism relationships. In neither system did flows get out of the river channel. Both systems had very low bioavailable nutrient concentrations (Webb et al. 2017).
|
Macroinvertebrates
|
What did CEW contribute to:
-
macroinvertebrate diversity in the lower Goulburn River?
-
macroinvertebrate abundance and biomass in the lower Goulburn River?
-
macroinvertebrate emergence (and hence recruitment) in the lower Goulburn River?
|
|
Diversity was not affected by CEW in 2014-15 or 2015-16. Biomass might be affected, but varied in each year, with a decrease in the Goulburn in 2015-16 compared to the Broken. Abundance varied by taxa, and emergence differed between years (Webb et al. 2017).
Considered too early to establish contribution of CEW.
|
Vegetation diversity
|
What did CEW contribute to:
-
the recovery (measured through species richness, plant cover and recruitment) of riparian vegetation communities on the banks of the lower Goulburn River that have been impacted by drought and flood and how do those responses vary over time?
|
|
The spring fresh flows are expected to be of benefit to species diversity. Short term responses to freshes were limited; the cover of vegetation along the elevation gradient reflects the longer term influence of spring freshes (Webb et al. 2017).
|
-
How do vegetation responses to CEW delivery vary between sites with different channel features and different bank conditions?
|
|
Differences observed in 2014-15 were not seen in 2015. Need longer data set (Webb et al. 2017).
|
-
Does the CEW contribution to spring freshes and high flows trigger germination and new growth of native riparian vegetation on the banks of the lower Goulburn River?
|
|
Increases in cover on banks inundated by freshes in 2014-15 were not observed in 2015-16 – attributed to drier conditions pre sampling (Webb et al. 2017).
|
-
How does CEW delivered as low flows and freshes at other times of the year contribute to maintaining new growth and recruitment on the banks of the lower Goulburn River?
|
|
Conditions are not discussed in terms of CEW – just other conditions (local climate, antecedent conditions) in between flows (Webb et al. 2017).
|
Fish
|
What did CEW contribute to:
-
the recruitment of golden perch in the adult population in the lower Goulburn River?
-
golden perch spawning and in particular what magnitude, timing and duration of flow is required to trigger spawning?
-
survival of golden perch larvae in the lower Goulburn River?
|
|
Spawning event associated with CEW in 2014-15, but no eggs, larvae or evidence of recruitment in 2015-16.
No flows delivered for golden perch spawning in 2015-16 (Webb et al. 2017).
|
What did CEW contribute to:
-
the movement of golden perch in the lower Goulburn River and where did those fish move to?
|
|
Movement downstream associated with CEW (Webb et al. 2017).
|
