Behavioural avoidance of acidified water by juveniles of four commercial fish and prawn species with migratory life stages

Kroon, Frederieke J.

doi:10.3354/meps285193

Cited by 32 publications

(19 citation statements)

References 29 publications

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“…The changes in behaviour seen in the reared post-settlement fish may be a similar response due to the acidity of red soil. Behavioural avoidance of acid sulfate soils has been shown in juveniles of various fishes when pH levels were well within the range exhibited in natural systems (Kroon 2005). Red soil in Okinawa is acidic, with a pH of ~5 (Mkadam et al 2006), and analysis of the rearing conditions used here showed that the pH decreased with both increasing concentration of red soil and time.…”

Section: Discussionsupporting

confidence: 64%

Sediment pollution impacts sensory ability and performance of settling coral-reef fish

et al. 2015

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Marine organisms are under threat globally from a suite of anthropogenic sources, but the current emphasis on global climate change has deflected the focus from local impacts. While the effect of increased sedimentation on the settlement of coral species is well studied, little is known about the impact on larval fish. Here, the effect of a laterite "red soil" sediment pollutant on settlement behaviour and post-settlement performance of reef fish was tested. In aquarium tests that isolated sensory cues, we found significant olfaction-based avoidance behaviour and disruption of visual cue use in settlement-stage larval fish at 50 mg L(-1), a concentration regularly exceeded in situ during rain events. In situ light trap catches showed lower abundance and species richness in the presence of red soil, but were not significantly different due to high variance in the data. Prolonged exposure to red soil produced altered olfactory cue responses, whereby fish in red soil made a likely maladaptive choice for dead coral compared to controls where fish chose live coral. Other significant effects of prolonged exposure included decreased feeding rates and body condition. These effects on fish larvae reared over 5 days occurred in the presence of a minor drop in pH and may be due to the chemical influence of the sediment. Our results show that sediment pollution of coral reefs may have more complex effects on the ability of larval fish to successfully locate suitable habitat than previously thought, as well as impacting on their post-settlement performance and, ultimately, recruitment success.

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Section: Discussionsupporting

confidence: 64%

Sediment pollution impacts sensory ability and performance of settling coral-reef fish

et al. 2015

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“…The relatively small impact of the tested water quality variables on immune-gene expression in adult S. glomerata was unexpected and may reflect the fact that adult oysters are intertidal euryhaline organisms that have evolved mechanisms to cope with rapid changes in their environment. The juvenile finfish Pagrus auratus, Acanthopagrus australis and Macquaria novemaculeata and the marine invertebrate prawn Metapenaeus macleayi can predict acidity and avoid low concentrations of sulfuric acid (pH 6.6 to 5.0) when given a choice (Kroon 2005). Adult S. glomerata are sessile organisms that cannot escape ASS leachate, but are likely to close their shells in an attempt to avoid the acidity and heavy metal toxicity associated with ASS leachate.…”

Section: Discussionmentioning

confidence: 99%

Reduced salinity, but not estuarine acidification, is a cause of immune-suppression in the Sydney rock oyster Saccostrea glomerata

Green¹,

Barnes²

2010

Mar. Ecol. Prog. Ser.

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Acid sulfate soils (ASS) are a major problem around the world. Oxidation of these sulfide-rich sediments by anthropogenic disturbance results in production and release of sulfuric acid. Subsequent rise in the water table due to rain may result in sulfuric acid and heavy metal ions leaching out of the sediments into nearby estuaries, leading to their acidification. Anecdotal evidence exists that flood waters containing ASS leachate may cause adult Sydney rock oysters Saccostrea glomerata to become immune-suppressed, leading to higher mortality rates from the paramyxean parasite Marteilia sydneyi (aetiological agent of QX disease). In the current study, adult S. glomerata were exposed to a seawater matrix of varying salinity, sulfuric acid and Al 3+ for 48 h, and the expression of 7 genes involved in immunity were measured by quantitative reverse-transcription polymerase chain reaction. A change in salinity from 35 to 15 ppt caused a 1.7-fold down-regulation in the expression of peroxiredoxin 6 gene (p < 0.05). The expression of peroxiredoxin 6 was still down-regulated 5 d after oysters were returned to full-strength seawater (35 ppt). Changes in salinity, sulfuric acid and Al 3+ concentration had no effects on the expression of other target genes (p > 0.05). The effects of salinity, sulfuric acid and Al 3+ on the ability of immune genes to respond to microbial invasion were also investigated by exposing oysters to the seawater matrix for 40 h, followed by injection with heat-killed Vibrio alginolyticus bacteria. A drop in salinity coupled with V. alginolyticus injection resulted in down-regulation of peroxiredoxin 6 and C1q-like protein (p < 0.05). Apart from C1q-like protein, exposure to sulfuric acid and Al 3+ had no significant effects on the response of target genes to stimulation by V. alginolyticus (p > 0.05). These results support that reduced salinity, and not estuary acidification, is the main environmental stressor resulting in S. glomerata becoming immunocompromised during the QX disease risk period.KEY WORDS: Oyster · Saccostrea · Gene expression · Acidification · Environmental stress · Acid sulfate soils Resale or republication not permitted without written consent of the publisher

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“…In eastern Australia, disturbance of acid sulfate soils has a well documented history of causing environmental problems including fish kills particularly in northern New South Wales Sammut et al 1996;Roach 1997;Kroon 2005;Kroon and Ansell 2006), south eastern Queensland (Preda and Cox 1998;Cook et al 2000), and at East Trinity, Cairns in north Queensland Hicks et al 1999;Cook et al 2000;Russell and Helmke 2002;Russell and McDougall 2003;Russell and Preston 2005;Russell 2006). The first records of fish kills in the vicinity of East Trinity were around 1972, not long after site reclamation works had commenced.…”

Section: Introductionmentioning

confidence: 95%

Recovery of fish and crustacean communities during remediation of tidal wetlands affected by leachate from acid sulfate soils in north-eastern Australia

Russell¹,

Preston²,

Mayer³

2010

Wetlands Ecol Manage

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In the 1970s, acid sulfate soils (ASS) distributed within about 720 ha of predominantly mangrove and salt pan wetlands at East Trinity in north Queensland were developed after the area was isolated from tidal flooding by a surrounding seawall and the installation of tidal gates on major drainage creeks. Following drainage and oxidation of these estuarine acidic sediments, resultant acid leachate caused considerable, ongoing environmental problems including regular fish kills. A rehabilitation program covering much of these former tidal wetlands commenced in 2000 using a lime-assisted tidal exchange management regime. Changes in the established populations of estuarine fish and crustaceans were monitored in the two creeks (Firewood and Hills Creeks) where tidal flows were reinstated. In Firewood Creek between 2001 and 2005, there was a progressive increase in fish species richness, diversity and abundance. The penaeid prawn Fenneropenaeus merguiensis was a major component of the cast net catches in the lower sections of both Firewood and Hills Creeks but its relative abundance decreased upstream of the tidal gates on the seawall. Well established stocks of predominantly juvenile, male Scylla serrata resident upstream of the tidal gates indicated suitable habitats with acceptable water and sediment quality and adequate availability of food. The regular fish kills that occurred prior to the management regime abated and, overall, the implementation of the rehabilitation program is yielding positive benefits for the local fisheries.

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Behavioural avoidance of acidified water by juveniles of four commercial fish and prawn species with migratory life stages

Cited by 32 publications

References 29 publications

Sediment pollution impacts sensory ability and performance of settling coral-reef fish

Sediment pollution impacts sensory ability and performance of settling coral-reef fish

Reduced salinity, but not estuarine acidification, is a cause of immune-suppression in the Sydney rock oyster Saccostrea glomerata

Recovery of fish and crustacean communities during remediation of tidal wetlands affected by leachate from acid sulfate soils in north-eastern Australia

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