Fieldwork Ready. Sara E. Vero

Fieldwork Ready - Sara E. Vero


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from a couple of square meters to “strip” plots, encompassing entire crop rows or even fields or parcels measuring several hectares. Smaller plots allow more treatments to be applied but may suffer from greater edge effects and the measurements within each plot will be more subject to site‐specific variables. Larger plots or strips may smooth out these influences but are logistically demanding. Field research is often limited by available area (particularly if you are being hosted by a participating farmer rather than a research farm owned by your institution or university), and large‐scale trials are more expensive to establish and maintain. Irrespective of the size of your plots it is important to impose adequate spacing or barriers between them so that the treatments applied to each plot do not affect those adjacent to it. For example, if you are examining the efficacy of an herbicide on mixed species swards, airborne drift of the chemical could lead inadvertently contaminate other plots. Be sure to account for spacing in your initial design and layout of your plots.

      Another consideration in determining plot size is the nature of the treatment. Some treatments are well suited to plots measuring just a few square meters, for example, seed mixes or herbicide treatments. Others can only be implemented at a row or field scale to be representative of farm practice, because of the size of machinery involved or due to the size of plant species being examined. Treatments requiring this larger scale approach might include cultivation practices, investigation of subsurface drainage systems, or testing of irrigation systems (among many others).

      Plot experiments are well suited to randomization (e.g., complete or incomplete randomized block design, split plot arrangements, multifactorial design, etc.). Some excellent and detailed aids to selecting the appropriate treatment design are provided by Oehlert (2010), Cassler (2014), and Glaz and Yeater (2017).

Schematic illustrations of (a) Guard rows in row crop trials. (b) Discard area and sampled area in a plot trial.

      Survey

      Source: Jaclyn Fiola.

Photo depicts soil surveys validating soil maps.

      Source: Sara Vero.

      Survey types in environmental science include:

       Soil mapping

       River chemistry snapshots

       Groundwater well dipping (for determining watertable depth)

       Species characterization (plant or animal)

       Topographic mapping

       Geological survey

      Although it is not strictly a biophysical method, surveys of farm management such as fertilizer rates, timing of cultivation, and stocking rates have an important role in agricultural and environmental research. These factors may influence your observations and are crucial to interpretation of results. Recording farm practices requires the involvement of the farmer or farmers on whose land the research is conducted or who live within a study catchment or watershed. For catchment‐scale studies (in agricultural landscapes), it is desirable to have a representative proportion of farmers participating in record‐keeping. These records can be demanding, both for the researcher and the participants so it is helpful to be clear at the initiation of the study what each party is expected to record and how they are to do it. Hard‐copy or online diaries help the farmer to keep track of their activities, particularly those details which you are interested in.

      Case Study

Photo depicts the researchers collecting soil, water and ecological information to form a comprehensive characterisation of their case study.