Data from: Quality versus quantity: Response of riparian bird communities to aquatic insect emergence in agro-ecosystems
Data files
Jan 28, 2025 version files 140.15 KB
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benthic_classifications.csv
104.57 KB
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benthic.csv
12.79 KB
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bird.csv
4.63 KB
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emergence_seasonality.csv
1.29 KB
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emergence.csv
3.13 KB
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environment.csv
4.20 KB
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README.md
7.20 KB
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sites_bird.csv
1.42 KB
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sites_full.csv
933 B
Abstract
In many agricultural landscapes where field drainage is required to enhance crop production, agricultural drainage ditches, and their associated banks and hedgerows can support riparian biodiversity, including bird communities. Against a global background of farmland bird and terrestrial insect decline due to agricultural intensification and extensification, emerging aquatic insects in these aquatic corridors can provide a pulse of energy-rich, nutritionally-critical food for birds and other wildlife. In this paper, we quantify the value of drainage ditch habitats in terms of aquatic insect production as a potential food source for riparian foraging birds in a river basin in eastern Canada. We found that although extremely productive in terms of total biomass, agricultural drainage ditches may not be able to fully support resource use for foraging predators that rely on emerging aquatic insects. DNA metabarcoding revealed a gradient of “quality” (large-bodied, nutrient rich insects) to “quantity” (small-bodied, mass emerging insects) between forested streams, agricultural streams and drainage ditches. The proportion of insectivorous birds was lowest along straight ditches running through agricultural fields and highest among meandering (sinuous) streams in more forested areas, likely reflecting the availability of high quality aquatic emergent insects. Agricultural producers can improve habitat provisioning for birds on their farms by supporting mosaicked farmscapes through careful conservation and management of ditches and ditch bank vegetation. Establishing larger forest blocks with natural or unmanaged streams between areas of more intense land use can ensure the provisioning of more high quality prey to riparian insectivorous birds, helping to find the balance between agricultural productivity and protection of declining bird populations.
README: Data from: Quality versus quantity: Response of riparian bird communities to aquatic insect emergence in agro-ecosystems
https://doi.org/10.5061/dryad.sbcc2frfk
Study Area: South Nation River Watershed, Ontario, Canada
Objective: Examine the secondary productivity of emerging aquatic insects as an ecosystem service and determine the linkage between aquatic insect emergence and riparian avian communities in an agro-ecosystem in eastern Ontario, Canada.
Description of the data and file structure
Data files included:
- "sites_full.csv"-- GPS coordinates in NAD 83 for full list of study sites (n=29) and categorical classifications (variable descriptions in table below).
"environment.csv" -- Descriptive environmental data for study sites, including geospatial variables and water chemistry (variable descriptions in table below).
"emergence.csv" -- Aquatic insect emergence biomass over the sampling season, averaged for each site (variable descriptions in table below).
"emergence_seasonality.csv" -- Coefficient of variation of aquatic insect emergence for each site (variable descriptions in table below).
"sites_bird.csv" -- Summary statistics for bird community at reduced sites (n=24) (variable descriptions in table below).
"benthic.csv" -- Benthic macroinvertebrate presence/absence matrix at the genus level.
"bird.csv" -- Riparian avian community abundance matrix, coded by their 4-letter Institute for Bird Populations (IBP) alpha code, English name and scientific name.
"benthic_classifications.csv" -- Taxonomic classifications for benthic data.
Dataset Variable Description
sites_full.csv
Site : Site identification number used throughout study and datafiles
lat: Latitude in NAD 84
long: Longitude in NAD 84
Sinuosity: Categorical variable binning sites into "straight", "low" or "sinuous"
environment.csv
Forest_1000 Percent forest calculated at 1000 m buffer for each site
LandCoverDiversity_200: Shannon-Wiener diversity of land cover classes calculated at 200 m buffer
LandCoverDiversity_1500: Shannon-Wiener diversity of land cover classes calculated at 1500 m buffer
CropDiversity_200: Shannon-Wiener diversity of crops calculated at 200 m buffer
CropDiversity_2000: Shannon-Wiener diversity of crops calculated at 2000 m buffer
MeanFieldSize_500: Mean field size (metres) calculated at 500 m buffer
MeanFieldSize_1500: Mean field size (metres) calculated at 1500 m buffer
DistanceToForest: Distance to nearest forest (metres)
HedgeHeight: Height of riparian vegetation (hedge) (metres)
HedgeWidth: Width of riparian vegetation (hedge) (metres)
Water_Nitrogen: Total Kjeldahl Nitrogen in mg/L from surface water
Water_Phosphorus: Total Phosphorus in mg/L in surface water
Water_Alkalinity: Alkalinity in mgCaCO3/L in surface water
Water_Sodium: Sodium, extractable in mg/L in surface water
Water_Strontium: Strontium, extractable in mg/L in surface water
Water_Silicon: Silicon, extractable in mg/L in surface water
Water_DOC: Dissolved organic carbon in mg/L in surface water
emergence.csv
collection: Collection number, ordered sequentially from 1-5 (collected every 2 weeks)
year: Sampling/ collection year
MonthSa: mpling/collection month
day: Sampling/ collection day
avg_biomass: Dry weight of emerged biomass, emergence traps averaged for each site's collection
cv_emerg: Coefficient of variation of avg_biomass, calculated for each site
sites_bird.csv
prop_insectivores: Proportion of insectivorous birds in riparian avian community
birds_richness: Species richness of riparian avian community
birds_shannon: Shannon-Wiener diversity index of the avian community
Code/Software
"SouthNationSecondaryProductivity.R" -- R script detailing data curation and analyses.