. 2016 Sep 28:6:34230.

doi: 10.1038/srep34230.

Temporal patterns in the soundscape of the shallow waters of a Mediterranean marine protected area

Affiliations

¹ National Research Council - Institute for Coastal Marine Environment - Bioacousticslab Capo Granitola, Via del Mare, 6 - 91021 Torretta Granitola, Campobello di Mazara (TP), Italy.
² Department of Pure and Applied Sciences (DiSPeA) - University of Urbino- Campus Scientifico "Enrico Mattei"- 61029 Urbino, Italy.
³ ENEA - Observations and Analyses of Earth and Climate -Via Principe di Granatelli, 24 - 90139 Palermo, Italy.

PMID: 27677956
PMCID: PMC5039702
DOI: 10.1038/srep34230

Temporal patterns in the soundscape of the shallow waters of a Mediterranean marine protected area

Giuseppa Buscaino et al. Sci Rep. 2016.

. 2016 Sep 28:6:34230.

doi: 10.1038/srep34230.

Affiliations

¹ National Research Council - Institute for Coastal Marine Environment - Bioacousticslab Capo Granitola, Via del Mare, 6 - 91021 Torretta Granitola, Campobello di Mazara (TP), Italy.
² Department of Pure and Applied Sciences (DiSPeA) - University of Urbino- Campus Scientifico "Enrico Mattei"- 61029 Urbino, Italy.
³ ENEA - Observations and Analyses of Earth and Climate -Via Principe di Granatelli, 24 - 90139 Palermo, Italy.

PMID: 27677956
PMCID: PMC5039702
DOI: 10.1038/srep34230

Abstract

The study of marine soundscapes is an emerging field of research that contributes important information about biological compositions and environmental conditions. The seasonal and circadian soundscape trends of a marine protected area (MPA) in the Mediterranean Sea have been studied for one year using an autonomous acoustic recorder. Frequencies less than 1 kHz are dominated by noise generated by waves and are louder during the winter; conversely, higher frequencies (4-96 kHz) are dominated by snapping shrimp, which increase their acoustic activity at night during the summer. Fish choruses, below 2 kHz, characterize the soundscape at sunset during the summer. Because there are 13 vessel passages per hour on average, causing acoustic interference with fish choruses 46% of the time, this MPA cannot be considered to be protected from noise. On the basis of the high seasonal variability of the soundscape components, this study proposes a one-year acoustic monitoring protocol using the soundscape methodology approach and discusses the concept of MPA size.

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Figures

**Figure 1**
Top: The study area (red arrow) at two scales: Topleft-Lampedusa Island in the Central Mediterranean Sea; Topright-Lampedusa Marine Protected Area (red arrow). Below: Capo Grecale MPA delimited by yellow buoys with the spacing shown. The recorder position (red point) was near the midpoint of the MPA. (Map source: Schlitzer, R., Ocean Data View, odv.awi.de, 2015).

**Figure 2. Seasonal trends (one year of data from July 2013 until June 2014) in the rms octave band sound pressure levels (BPL) for different frequencies.**
(a) Lower frequency BPL (from 62.5 to 1000 Hz). (b) Higher-frequency BPL from 2 kHz to 64 kHz. (Median; Whisker: 40^th–60^th).

**Figure 3. Seasonal trends of rms BPLs for all data (one year), summer data (July, August and September) and winter data (December, January and February)(Median; Whisker: 45^th–55^th percentile).**
The differences between the summer and winter for each BPL are significant (Mann-Whitney U test, p < 0.001).

**Figure 4. BPLs for the daytime (10 am to 3 pm)and night-time (10 pm to 03 am; black line) for all four seasons (Median; Whisker: 40^th–60^th percentile).**
Differences between daytime and night-time (black lines) are marked with *for p-level < 0.05), **for p-level < 0.01, ***for p-level < 0.0001 (Mann-Whitney U test). The light blue polygon in the Summer graph represents the acoustic niche of fish.

**Figure 5. Circadian trends for each month in the BPLs (black line) and ACI (blue line) for three selected frequencies: 250, 1000 and 4000 Hz.**
For 250 Hz and 1 kHz, the fish vocalization counts per minute were added to the secondary y-axis (grey area). For 4 kHz, the snap counts per minute from snapping shrimp (grey area) were added to the secondary y-axis. X-axis: hour of the day for each month.

**Figure 6. BPLs from 62 to 2000 Hz calculated for 10-day subsamples between 7:30 pm and 11:30 pm for July and August (the period in which we recorded the maximum fish vocalization activity).**
Median with 40% of the data (box) for fish choruses without vessel passage noise (green plot), with vessel passage noise (black plot) (46% of the recordings represented this condition), and for background noise (files with no fish chorus or vessel passage in the spectrogram) (median; Whisker: 30^th–70^th percentile).

**Figure 7. Two-day continuous spectrogram (11 and 12 July 2014) showing the snapping shrimp sound (S), fish choruses (F) and anthropogenic noise caused by the passage of vessels (V).**
The spectrogram was obtained using the XBAT software (Cornell University. USA). x-axis: time; y-axis: frequency 0–4 kHz; SPL intensity is shown in greyscale.

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References

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Temporal patterns in the soundscape of the shallow waters of a Mediterranean marine protected area

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Temporal patterns in the soundscape of the shallow waters of a Mediterranean marine protected area

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