Abstract
Counts are normally used to assess the densities of plants. However, due to the physical characteristics of these sites, habitats and species associated with inaccessible rocky cliffs and other extreme environments pose additional challenges. It is therefore necessary to apply changes to the usual data collection methods. This system allows population sizes to be estimated from an incomplete data collection. This is important because when data collection sites are inaccessible, the fieldwork cannot be carried out within the time that is normally allocated. Furthermore, the minimum sampling effort involved enables economic resources to be saved. This method allows the time spent and the material, methodological and human resources used to be reduced while simultaneously allowing the highest level of accuracy to be maintained.•The minimum effort needed to carry out data collection of plants on vertical walls and other difficult-to-access environments is calculated.•The proposed method is based on the search for the theoretical distribution function with a better adjustment to the actual distribution of the studied species.•This system allows to reduce the necessary resources, while the maximum accuracy is maintained in the calculations.
Highlights
The image is measured using Geographic Information System (GIS) software and the picture is adjusted so the dimensions correspond to the actual distance, following the method developed by Goñi et al [1]
Between 30 and 40 delimited areas had to be selected where the observers carried out two counts: one with the same lens used for the original data collection (20Â) and the other with a higher magnification lens, which enabled individuals to be counted with greater precision (60Â)
Taking into account that the final result was known, the authors proceeded to determine the smallest sample size that could be stipulated in order to obtain a reliable measure of population size, determining the minimum effort required to carry out the data collection
Summary
The minimum effort needed to carry out data collection of plants on vertical walls and other difficult-to-access environments is calculated. The proposed method is based on the search for the theoretical distribution function with a better adjustment to the actual distribution of the studied species.
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