In the Field - Sample Collection

• Permits and Approvals
• Collection Methods
• Preservation of Sample Integrity
• Field Recordkeeping
• Equipment and Safety Considerations
• Fish Biopsy Plug Collection

Permits and Approvals

Permits are typically required for data or sample collection activities. Permits or documentation required for site access or sample collection should be part of a site packet of information.

Before collecting samples on public land, notify the relevant agency and secure permission if necessary. If access to public land necessitates crossing private lands, obtain permission to do so.

If samples are collected from private land, obtain permission from the owner to access the property. Communicate with the landowner when a field crew is on site. Obtain information in advance on things that could impede access (e.g., locked gates, pets, and livestock) and on activities in or near the sampling site such as active hunting, farming, and mining.

Collection Methods

Collection methods are divided into two major categories: active and passive. Active collection methods involve human or mechanical power to chase and capture target species. Passive collection relies on the movement of the fish into a net or trap that is left in place for a period before retrieval. Each collection method has a variety of devices, and each collection method has advantages and disadvantages.

Active collection methods (Table 1) are particularly useful in shallow waters. For deep water sampling, active collection methods require more field personnel and more expensive equipment than passive collection methods.

Passive collection methods (Table 2) generally require less effort than active methods for deep water. Fish captured in passive collection devices should be removed within 24 hours of deploying the device as caught fish can be vulnerable to predation.

Sampling procedures that apply to a variety of waterbodies are described in the field operations manuals for the National Aquatic Resource Surveys. These procedures are for large-scale programs but could be adapted for a smaller program.

• For rivers and streams: Section 10.3 of the National Rivers and Streams Assessment 2018/19 Field Operations Manual Wadeable (pdf)
• For lakes: Section 7.0 Lake Wide Fish Sample Collection of the National Lakes Assessment 2022 Field Operations Manual (pdf)
• For coastal waters: Section 14.1 Ecological Contamination Fish Tissue Collection of the National Coastal Condition Assessment 2020 Field Operations Manual (pdf)

Table 1. Summary of Active Collection Methods

Table 2. Summary of Passive Collection Methods

If the collection doesn’t result in sufficient samples, purchasing or acquiring fish and shellfish from commercial or recreational fishers is acceptable and can supplement agency efforts and help to fill a data gap for the target waterbody. However, it is essential for quality control purposes that sample collection and handling procedures are followed by the commercial or recreational fishers, and documentation ensuring chain of custody records is provided. It is preferable to have a representative on the commercial boat, if possible, to ensure fish are collected and handled properly; however, there may be legal limitations depending on the location and/or fishing industry.

There could be opportunities for projects with commercial fishermen as collaborators. Some agencies obtain samples from the commercial seafood industry, but through seafood processors, not the fishermen.

Recreational fishers can provide fish from locations that are popular for recreational fishing but may not be easily accessible for sampling. This works best through pre-arrangement. If the fisher is a current or former department employee, there is increased confidence that the fish is collected and handled properly.

Preservation of Sample Integrity

Sample preservation is the most important quality assurance consideration in sample collection and should align with the monitoring objectives and contaminant analysis. After the sample is collected, field staff should ensure that processing and preservation are conducted as prescribed in sample collection protocols, with minimal chance of contamination. Sample integrity is preserved by preventing the loss of contaminants present in the tissues and by preventing cross contamination. The tissue contaminant analyses (metals or organics or both) should be considered when planning the materials to be used in the collection and handling steps to minimize cross contamination.

• Contaminant loss: This can be prevented by ensuring that the skin on the fish specimens has not been lacerated by the sampling gear or that the carapace of crustaceans or shells of bivalves have not been cracked during sample collection. Any imperfections may lead to the loss of tissues and/or fluids that may contain contaminants. Similarly, fish and shellfish specimens should be carefully wrapped after they are collected and placed on wet or dry ice to limit fluid loss through dehydration. After the samples have reached the laboratory, further care must be taken during thawing (if specimens are frozen) to ensure that all liquids from the thawed specimens are retained with the tissue sample as appropriate.
• Cross contamination: Samples should be protected from cross-contamination from sampling gear, bilgewater, sediment, crew supplies, grease from ship winches or cables, spilled engine fuel (gasoline or diesel), and engine exhaust. All potential sources of contamination in the field should be identified and appropriate steps taken to minimize or eliminate them. Consider using these good practices:
  • During sampling, position the boat (or any other vehicle used while sampling) so that engine exhaust emissions do not contaminate samples on the deck.
  • Put on clean nitrile gloves before handling the fish.
  • Rinse potential target species/individuals in ambient water to remove foreign material from the external surface and place them in clean holding containers (e.g., livewells, buckets).
  • Do not use sampling equipment that has obviously been contaminated by oils, grease, diesel fuel, gasoline, or anything else.
  • Between sampling sites, the field collection team should clean each measurement device by rinsing it with ambient water. Keep boat decks and docks clear of devices and material not directly related to sample collection.
  • Do not handle any food, drink, sunscreen, or insect repellant until after the fish has been collected, measured, and wrapped (or implement measures to reduce contamination by such chemicals if applied such as washing, wearing long gloves, etc.).

Field Recordkeeping

Thorough documentation of all field sample collection activities is necessary for proper interpretation of field survey results. Although paper data forms are still commonly used, weather-resistant electronic tablets with appropriate applications and data forms may also be used to document field work. Wireless capability data collection is ideal in the field, but electronic tablets should be equipped with a reliable battery and memory space to store forms to be downloaded later, if wireless capability is unavailable. If paper forms are to be used, it is advisable to use preprinted waterproof data forms, indelible ink or pencil, and writing implements that can function when wet or cold.

There are important field collection and sample tracking data that should be recorded for each sampling site to document field activities from the time the sample is collected through delivery to the processing laboratory. The example forms and labels show important field collection and sample tracking data elements, but format and content should be adapted based on specific study needs and objectives.

1. Field Record Forms (pdf) are available as tablet applications (apps), but some programs may still use paper forms. Recorded information should include date, location, weather conditions, hydrologic conditions, sample collection activities, problems encountered, sample ID, fish species, weight, and length.
2. Sample Identification Label (pdf) - Each sample should have a unique identification and this tag should stay with the sample (e.g., affixed to sample packaging) through the entire process. In this example, the label includes project name, date, time, site identification, sample identification, and specimen number. A portable label printer with indelible ink is useful when attached to the computer used to record data.
3. Chain of Custody Form (pdf) - This form tracks samples from the field to the laboratory. The information includes contact information, sample location, date, time, sample identification or station, preservative, number of containers, and signatures.
4. Sample Shipping Form (pdf) - This example includes a Site ID and Sample ID. A consistent format should be used that makes sense to the project team.

Equipment and Safety Considerations

Checklist of Field Sampling Equipment and Supplies (pdf) (95.96 KB)

Safety Considerations for Field Sampling Using a Boat

Fish Biopsy Plug Collection

Most programs collect fish to process as either fish fillet or whole fish samples. If a program only needs to monitor for mercury or selenium, fish plug samples could be collected in the field for tissue analysis. The U.S. Environmental Protection Agency recommends following the field procedures described in Section 11 of the National Rivers and Streams Assessment 2018/2019 Field Operations Manual Non-Wadeable Version 1.2.