Abstract
Point detection (e.g., the centroid of the body) of species has been conducted in numerous studies. However, line detection (i.e., the line body shape) of elongated species has rarely been investigated under stressful conditions. We analyzed the line movements of an Oligochaeta Lumbriculus variegatus in response to treatments with a toxic chemical, copper sulfate, at low concentrations (0.01 mg/L and 0.1 mg/L). The automatic line-tracking system was devised to identify the movement of body segments (body length) and the movements of segments (i.e., the speed and angles between segments) were recorded before and after treatment. Total body length was shortened from 31.22 (±5.18) mm to 20.91 (±4.65) mm after the 0.1 mg/L treatment. The Shannon entropy index decreased from 0.44 (±0.1) to 0.28 (±0.08) after treatment. On the other hand, the body and movement segments did not significantly change after the 0.01 mg/L treatment. Sequential movements of test organisms were further analyzed with a recurrent self-organizing map (RSOM) to determine the pattern of time-series line movements. The RSOM made it feasible to classify sequential behaviors of indicator organisms and identify various continuous body movements under stressful conditions.
Highlights
Response behavior of indicator species is considered an efficient means of monitoring risk in aquatic ecosystems [1,2,3,4]
The Shannon entropy index was not differentiated when the test organisms were treated with the 0.01 mg/L concentration; the values were 0.508 ± 0.11 (SD) before treatment and 0.501 ± 0.09 (SD)
The Shannon entropy index significantly decreased after the 0.1 mg/L treatment (0.44 ± 0.1 (SD) before treatment and 0.287 ± 0.08 (SD) after treatment), the difference was not statistically significant (Figure 1b)
Summary
Response behavior of indicator species is considered an efficient means of monitoring risk in aquatic ecosystems [1,2,3,4]. Real-time behavior measurements are able to fill the gap between macroscale (e.g., community surveys) and microscale (e.g., individual development) assessments [5,6]. Response behaviors of indicator species are sensitive to sublethal exposure of various toxic chemicals at low concentrations [1,7]. Response behaviors have been monitored in various taxa, including insects [8,9], crustaceans [2,10], snails [11], and fish [12,13,14]. Res. Public Health 2020, 17, 2627; doi:10.3390/ijerph17082627 www.mdpi.com/journal/ijerph
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