01170nas a2200169 4500008004100000022001400041245008000055210006900135260001600204520060200220100002400822700002200846700002700868700001500895700003000910856006000940 2019 eng d a1071-844300aSound Communication in Embryos and Hatchlings of Lepidochelys kempii0 aSound Communication in Embryos and Hatchlings of iLepidochelys k cFeb-11-20213 a
Recent studies have shown that acoustic signals play an important role in turtle social behavior and reproduction. We recorded embryos and hatchlings of Lepidochelys kempii inside the nest and underwater in June 2016 in Playa Santander, Veracruz, Mexico, and detected 189 sounds that were classified into 6 types according to their aural and spectral characteristics. Our results show that acoustic communication appears to be widely used in all species of sea turtles in aquatic environments, probably because of the high efficiency of this signaling modality in water compared with air.
1 aFerrara, Camila, R.1 aVogt, Richard, C.1 aSousa-lima, Renata, S.1 aLenz, Anna1 aMorales-Mávil, Jorge, E. uhttp://www.chelonianjournals.org/doi/10.2744/CCB-1386.101902nas a2200157 4500008004100000245006400041210006400105520136900169100002601538700002501564700002901589700002601618700002201644700002701666856005101693 2019 eng d00aEffects of mining truck traffic on cricket calling activity0 aEffects of mining truck traffic on cricket calling activity3 aAnthropogenic noise is a global pollutant and several studies have identified its impact on wildlife. This research shows how the noise produced by mining affects crickets’ acoustic communication. Two passive acoustic monitoring devices (SMII) were installed in a forest fragment located at 500 m from the Brucutu Mine in Brazil. Another two SMII were installed distant 2500 from the mine. The equipment was configured to record from 17:00 to 05:00 h during seven days in April 2013. The authors analyzed the spectral characteristics of acoustic activity of three species of crickets (Anaxipha sp., Gryllus sp., and a Podoscirtinae species) before, during, and after the passing of mine trucks. For comparison the authors analyzed the acoustic characteristics for Anaxipha sp. and Gryllus sp. found in the distant site. Results showed a calling interruption for all the species during truck transit. Gryllus sp. emitted calls with higher maximum frequencies, average power, and larger bandwidth in the site close to the mine. Podoscirtinae species emitted calls with lower minimum frequencies, higher average power, and large bandwidth in the close site. The authors show that insect acoustic behavior varies between areas with different levels of noise. The disruption of this behavior may have negative consequences for their reproductive success.
1 aDuarte, Marina, H. L.1 aCaliari, Ernesto, P.1 aScarpelli, Marina, D. A.1 aLobregat, Gabriel, O.1 aYoung, Robert, J.1 aSousa-lima, Renata, S. uhttp://asa.scitation.org/doi/10.1121/1.511912501013nas a2200169 4500008004100000022001400041245012400055210006900179260001600248520039700264100002500661700002400686700002600710700002000736700002700756856006000783 2019 eng d a1071-844300aFirst Record of Bioacoustic Emission in Embryos and Hatchlings of Hawksbill Sea Turtles (Eretmochelys imbricata)0 aFirst Record of Bioacoustic Emission in Embryos and Hatchlings o cMay-11-20193 aRecordings were made in nests of Eretmochelys imbricata and 107 samples of 10-min recordings revealed 575 sounds that were classified manually into 4 categories. Our results show that hawksbill turtles vocalize within the nest, especially during and after eclosion, which suggests vocalizations are important for communication among hatchlings to synchronize emergence from the nest.
1 aMonteiro, Cibele, C.1 aCarmo, Hayane, M.A.1 aSantos, Armando, J.B.1 aCorso, Gilberto1 aSousa-lima, Renata, S. uhttp://www.chelonianjournals.org/doi/10.2744/CCB-1382.101971nas a2200193 4500008004100000245010700041210006900148260001600217520132300233100002301556700002301579700002101602700002401623700002001647700002001667700002701687700002001714856004301734 2018 eng d00aWhistle variability of Guiana dolphins in South America: Latitudinal variation or acoustic adaptation?0 aWhistle variability of Guiana dolphins in South America Latitudi cJun-12-20193 aA previous comparison of whistles using data sampled at 48 kHz suggested that certain frequency parameters vary along a latitudinal gradient. This geographical pattern may be biased because whistles sampled at higher frequencies could potentially have very different frequency contents. The current study compared the acoustic parameters of Guiana dolphin (Sotalia guianensis) whistles recorded at a higher sampling rate (96 kHz) and from groups occupying two never before sampled sites, Benevente Bay, Espírito Santo, Brazil, and Formosa Bay, Rio Grande do Norte, Brazil, with recordings of other populations in South America. By only considering data sampled at a rate of at least 96 kHz, we aimed to detect differences in whistles across locations. Contrary to previous findings, our analyses do not indicate any clear separation between northern and southern populations based on whistles, and do not corroborate the hypothesis of latitudinal acoustic variation in this species. The variation in Guiana dolphin whistle parameters found here appears to be influenced by latitude to some extent, but several other factors, including sampling method, environmental fluctuations, and social influence on vocal learning, may be confounding the detection of a geographic pattern in these whistle samples.
1 aLopes, Nara, Pavan1 aReis, Sarah, Stutz1 aMamede, Natália1 aReis, Suzana, Stutz1 aToledo, Gustavo1 aCorso, Gilberto1 aSousa-lima, Renata, S.1 aAndriolo, Artur uhttp://doi.wiley.com/10.1111/mms.1257202003nas a2200205 4500008004100000245010800041210006900149260002000218300001100238490000600249520130900255100002401564700002701588700002001615700002201635700002301657700002701680700002701707856006301734 2018 eng d00aWhat do insects, anurans, birds, and mammals have to say about soundscape indices in a tropical savanna0 aWhat do insects anurans birds and mammals have to say about soun cSep-18-20182245 aPVH6YZ0 v23 aThe application of acoustic indices is incipient and still needs validation before it can reliably characterize soundscapes and monitor rapidly disappearing hot-spot areas as the Brazilian tropical savanna (Cerrado). Here we investigate which of six acoustic indices better correlate with the 24 h zoophony richness of insects, anurans, birds, and mammals. We sampled one minute every 30 minutes for seven days on three sites in Serra da Canastra National Park (Minas Gerais state, Brazil) and extracted the sonotype richness and six indices based on recordings with a bandwidth of up to 48 kHz. The Acoustic Diversity, Evenness, Entropy, and Normalized Difference Soundscape indices followed the temporal trends of the sonotype richness of insects and anurans. The Acoustic Complexity (ACI) and Bioacoustic (BIO) indices did not correlated with sonotype richness. ACI and BIO were influenced by sonic abundance and geophony. We emphasize the need to include insects and anurans on soundscape and acoustic ecology analyses and to avoid bias on avian fauna alone. We also suggest that future studies explore measures of sonic abundance and acoustic niche occupation of sonotypes to complement measures of zoophony richness and better understand what each faunal group is telling us about indices.
1 aFerreira, Luane, M.1 aOliveira, Eliziane, G.1 aLopes, Lara, C.1 aBrito, Marcos, R.1 aBaumgarten, Júlio1 aRodrigues, Flávio, H.1 aSousa-lima, Renata, S. uhttps://www.veruscript.com/api/files/veruscript_PVH6YZ.pdf00584nas a2200145 4500008004100000245014600041210006900187260001600256100002800272700002100300700002200321700002500343700002700368856004300395 2017 eng d00aUpcall production by southern right whale ( Eubalaena australis) mother-calf pairs may be independent of diel period in a nursery area0 aUpcall production by southern right whale iEubalaena australisi cJan-02-20171 aDombroski, Julia, R. G.1 aParks, Susan, E.1 aGroch, Karina, R.1 aFlores, Paulo, A. C.1 aSousa-lima, Renata, S. uhttp://doi.wiley.com/10.1111/mms.12382