Consecutive earthquakes temporarily restructured the zooplankton community in an Alpine Lake

Brancelj, Anton; Žibrat, Uroš; Mezek, Tadej; Brancelj, Irena Rejec; Dumont, Henri J.

doi:10.1051/limn/2012001

Cited by 6 publications

(5 citation statements)

References 38 publications

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“…This suggests that the increase in spatial overlap within s,s and s,n pairs is related to an increase in interspecific interactions in turn determined by changes in species distribution in the spring subsurface microhabitats. Shifts from segregation to aggregation/randomness have also been observed in ant communities suddenly altered by the introduction of non-native species 30 , 31 and severe, albeit transient, changes were noticed in lacustrine planktonic communities after an earthquake 32 , suggesting that this pattern can be a recurrent consequence of a strong disturbance.…”

Section: Discussionmentioning

confidence: 90%

Earthquake-Related Changes in Species Spatial Niche Overlaps in Spring Communities

Fattorini

Lombardo

Fiasca

et al. 2017

Sci Rep

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Species interactions between stygobites (obligate groundwater organisms) are poorly known, reflecting the difficulty in studying such organisms in their natural environments. Some insight can be gained from the study of the spatial variability in microcrustacean communities in groundwater-fed springs. Earthquakes can increase hydraulic conductivity in the recharge area of karstic aquifers and flow rates in discharge zones, thus dislodging stygobites from their original habitats to the spring outlets. Earthquakes are expected to alter species spatial niche overlap at the spring outlets, where stygobites coexist with non-stygobites living in benthic and subsurface habitats. We compared the abundance of stygobiotic and non-stygobiotic microcrustaceans in groundwater-fed springs before and after the 6.3-Mw earthquake that hit the karstic Gran Sasso Aquifer (Italy) in 2009. Pre-seismic (1997, 2005) overall niche overlaps were not different from null expectations, while post-seismic (2012) species mean niche overlaps were higher, following the redistribution of animals caused by the earthquake-triggered discharge. The reduced abundance of stygobites following their dislodgement from the aquifer and the concomitant displacement of non-stygobites led to a higher post-seismic co-occurrence of stygobites and non-stygobites. Changes in aquifer structure destroyed pre-seismic species segregation patterns by creating new or strengthening already existing interactions.

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Section: Discussionmentioning

confidence: 90%

Earthquake-Related Changes in Species Spatial Niche Overlaps in Spring Communities

Fattorini

Lombardo

Fiasca

et al. 2017

Sci Rep

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“…Taxonomic composition has been shown to change in connection with earthquakes [Brancelj et al 2012]. Two orders of ground dwelling birds (galliformes and tiniamiformes) and six orders of terrestrial mammals (carnivora, cetartiodactyla, cingulata, perissodactyla, primates and rodentia)…”

Section: Taxonomic Compositionmentioning

confidence: 99%

Changes in animal activity prior to a major (M= 7) earthquake in the Peruvian Andes

Grant

Raulin

Freund

2015

Physics and Chemistry of the Earth, Parts A/B/C

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During earthquake preparation geophysical processes occur over varying temporal and spatial scales, some leaving their mark on the surface environment, on various biota, and even affecting the ionosphere. Reports on pre-seismic changes in animal behaviour have been greeted with scepticism by the scientific community due to the necessarily anecdotal nature of much of the evidence and a lack of consensus over possible causal mechanisms. Here we present records of changes in the abundance of mammals and birds obtained over a 30 day period by motiontriggered cameras at the Yanachaga National Park, Peru, prior to the 2011 magnitude 7.0 Contamana earthquake. In addition we report on ionospheric perturbations derived from nighttime very low frequency (VLF) phase data along a propagation paths passing over the epicentral region. Animal activity declined significantly over a 3-week period prior to the earthquake compared to periods of low seismic activity. Night-time ionospheric phase perturbations of the VLF signals above the epicentral area, fluctuating over the course of a few minutes, were observed, starting 2 weeks before the earthquake. The concurrent observation of two widely different and seemingly unconnected precursory phenomena is of interest because recently, it has been proposed that the multitude of reported pre-earthquake phenomena may arise from a single underlying physical process: the stress-activation of highly mobile electronic charge carriers in the Earth's crust and their flow to the Earth's surface. The flow of charge carriers through the Animal Activity prior to M=7 Earthquake in Peru Physics and Chemistry of the Earth 2 rock column constitutes and electric current, which is expected to fluctuate and thereby emit electromagnetic radiation in the ultralow frequency (ULF) regime. The arrival of the charge carriers can lead to air ionization at the ground-to-air interface and the injection of massive amounts of positive airborne ions, known to be aversive to animals.

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“…In general, the study of ecosystem responses to major disturbance events may produce important ecological and resource management insights 13 and there is increasing literature on the effects of fires 14 , 15 , floods 16 , 17 , hurricanes 18 – 20 , tornadoes 21 , 22 , volcanic eruptions 23 – 25 , and tsunamis 26 , 27 on biodiversity. However, information on how animal communities respond to the disturbance of seismic events is still very limited 12 , 28 . In particular, the consequences of earthquakes on invertebrate biodiversity have been rarely addressed and remain therefore largely unknown 29 – 32 .…”

Section: Introductionmentioning

confidence: 99%

Earthquake impacts on microcrustacean communities inhabiting groundwater-fed springs alter species-abundance distribution patterns

Fattorini

Lorenzo

Galassi

2018

Sci Rep

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Earthquakes are important natural events, yet their impacts on animal communities are poorly known. Understanding earthquake impacts on groundwater communities is essential to assess their resilience and hence to perform conservation actions. We investigated how a 6.3 Mw earthquake that occurred in 2009 altered the community structure (diversity, evenness, dominance, species abundance distributions and beta-diversity) of microcrustaceans (Crustacea Copepoda) inhabiting springs fed by the Gran Sasso Aquifer (Central Italy). Sampling was done in low-discharge (1997), high-discharge (2005), and post-seismic (2012) hydrological years. Stygobites (obligate groundwater species) and non-stygobites (non-obligate groundwater species) showed different patterns. A high-water discharge in 2005 altered abundance patterns of non-stygobites. The earthquake re-established former abundance patterns. Stygobites were less affected by high-water discharge in 2005, and showed strong increases in diversity and evenness after the earthquake. This effect was due to the fact that the earthquake induced a strong population decline of previously dominant stygobites (especially of Nitocrella pescei) in the aquifer, and subsequently at the main spring outlets, thus allowing a more equitable species-abundance distribution. These results highlight the importance of considering species ecology to understand the effects of a significant earthquake event on animal communities.

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Consecutive earthquakes temporarily restructured the zooplankton community in an Alpine Lake

Cited by 6 publications

References 38 publications

Earthquake-Related Changes in Species Spatial Niche Overlaps in Spring Communities

Earthquake-Related Changes in Species Spatial Niche Overlaps in Spring Communities

Changes in animal activity prior to a major (M= 7) earthquake in the Peruvian Andes

Earthquake impacts on microcrustacean communities inhabiting groundwater-fed springs alter species-abundance distribution patterns

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