Water sampling from aerial drones for water quality research in coastal and inland waters

Washburn, Libe; Romero, Eduardo; Salazar, David; Valdez-Shulz, Andrea; Welch, Zoe; Iglesias-Rodríguez, Debora

doi:10.1002/essoar.91b890c2338f2530.0218ab17a1fc4712.1

Cited by 3 publications

(1 citation statement)

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“…Apart from the pit lake sampling efforts described later in this paper, the authors are aware of seven combinations of drone and sampling devices that have been used for drone water sampling (Table 1), the earliest of which is attributed to sampling in Nebraska in 2013 (Ore et al 2015). Reported sampling campaigns have focused on shallow water sampling over large spatial areas in wetlands (Ore et al 2015;Schwarzbach et al 2014), lakes (Cornell et al 2016;Koparan et al 2018;Terada et al 2018), and nearshore ocean (AC 2019;Washburn et al 2018). This body of work demonstrated that drone sampling can be used to collect surface water samples with a quality similar to those collected using boat-based sampling methods for less cost and more safely, especially when applied in remote locations.…”

Section: Overview Of Drone Water Samplingmentioning

confidence: 99%

A Validated Method for Pit Lake Water Sampling Using Aerial Drones and Sampling Devices

Castendyk

Voorhis

Kucera³

2020

Mine Water Environ

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Pit lakes present significant safety risks for boat-based water sampling crews. The Matrice-HydraSleeve method improves the safety of water sampling in pit lakes by eliminating the need for a boat-based sampling crew. The method connects an off-the-shelf unmanned aircraft system, or drone (DJI, Matrice 600) to an off-the-shelf water sampling device (GeoInsight, HydraSleeve). It is capable of collecting 1.75 L water samples from up to 122 m deep and is simpler than previous drone water sampling methods. To validate the method, water samples were collected from similar depths in Dillon Reservoir, Colorado, USA using the Matrice-HydraSleeve method and traditional boat sampling methods using a Van Dorn water sample bottle. Concentrations of Ca, Na, K, HCO 3 , SO 4 , Cl, and Zn showed less than 20% relative percent difference, and concentrations of Cd were within ± the detection limit, meaning variability between samples met the data quality objective for duplicate samples. The method was also used on two occasions to collect eight water samples from the 101 m deep pit lake at the Thompson Creek mine in Idaho, USA including a sample from 92 m deep. Calcium and sodium concentration profiles were nearly identical, indicating little change in water chemistry and providing confidence in the method. In situ profiles of temperature and electrical conductivity collected with a conductivity-temperature-depth probe (YSI, CastAway) suspended below the drone indicated the lake was meromictic during both sampling events. To date, the Matrice-HydraSleeve method has been used at 10 pit lakes in the USA to collect 81 samples. Use of this method at other pit lakes has the potential to improve safety while lowering sampling costs and increasing data acquisition, leading to better pit lake management.

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