Data from: Trace metals in nectar of important urban pollinator forage plants: A direct exposure risk to pollinators and nectar-feeding animals in cities
Data files
Nov 21, 2025 version files 17.54 KB
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nectar_clean.csv
16.06 KB
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README.md
1.48 KB
Abstract
Pollinators are exposed to metals while foraging in the landscape and accumulate detectable concentrations of trace metals within their bodies, although major exposure routes remain unclear. As nectar is the main source of food for pollinators, we analyzed trace metal content within floral rewards to identify if nectar contained detectable metals and may serve as an oral exposure route. Nectar from flowering plant species growing within vacant lots in the city of Cleveland, OH, USA, was extracted using a centrifuge and tested for metals using ICP-MS. We collected volunteer flower species that are common pollinator forage plants. Nectar metal content varied by plant and metal species, but not by location. This work demonstrates the complexity of identifying metal exposure risk based on soil metal data alone, as oral metal exposure is dependent on plant species, metal species, and soil characteristics.
https://doi.org/10.5061/dryad.rbnzs7hnj
Description of the data and file structure
Flower samples were collected from vacant lots in Cleveland, OH, USA, in June 2022. Flower heads were removed from the stem of the plant and transported to the Gardner laboratory in Columbus, OH, USA, on ice. Nectar and sap were extracted via centrifuge at 7000 RPM for 2 minutes. Metal analysis of the resulting liquid was conducted in the Trace Elemental Research Laboratory on the Ohio State Campus, Columbus, OH, USA, using Inductively Coupled Plasma- Mass Spectroscopy.
Data were created from a Perkin Elmer Sciex Elan DRCii Inductively Coupled Mass Spectroscopy machine. Any measured values below the detection limit (<DL) were changed to 0 in the dataset prior to analysis.
Files and variables
nectar_clean.csv
Description:
Variables
- Site: Location of sample collection (i.e., neighborhood name)
- number: Treatment ID - planting high diversity (8) or low diversity (1)
- diversity: plant diversity, high or low
- flower: common plant name
- sci_name: scientific plant name
- metal: test metal
- ppb: parts per billion, measured concentration of test metal
- type: material tested
- units: units of measurement, ppb- parts per billion