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Bender, Dorothea; Champ, Connor Michael; Kline, David I; Diaz-Pulido, Guillermo; Dove, Sophie (2015): Effects of reduced and business-as-usual CO2 emission scenarios on the algal territories of the damselfish Pomacentrus wardi (Pomacentridae) [dataset]. PANGAEA, https://doi.org/10.1594/PANGAEA.860466, Supplement to: Bender, D et al. (2015): Effects of “reduced” and “business-as-usual” CO2 emission scenarios on the algal territories of the damselfish Pomacentrus wardi (Pomacentridae). PLoS ONE, 10(6), e0131442, https://doi.org/10.1371/journal.pone.0131442

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Abstract:
Turf algae are a very important component of coral reefs, featuring high growth and turnover rates, whilst covering large areas of substrate. As food for many organisms, turf algae have an important role in the ecosystem. Farming damselfish can modify the species composition and productivity of such algal assemblages, while defending them against intruders. Like all organisms however, turf algae and damselfishes have the potential to be affected by future changes in seawater (SW) temperature and pCO2. In this study, algal assemblages, in the presence and absence of farming Pomacentrus wardi were exposed to two combinations of SW temperature and pCO2 levels projected for the austral spring of 2100 (the B1 "reduced" and the A1FI "business-as-usual" CO2 emission scenarios) at Heron Island (GBR, Australia). These assemblages were dominated by the presence of red algae and non-epiphytic cyanobacteria, i.e. cyanobacteria that grow attached to the substrate rather than on filamentous algae. The endpoint algal composition was mostly controlled by the presence/absence of farming damselfish, despite a large variability found between the algal assemblages of individual fish. Different scenarios appeared to be responsible for a mild, species specific change in community composition, observable in some brown and green algae, but only in the absence of farming fish. Farming fish appeared unaffected by the conditions to which they were exposed. Algal biomass reductions were found under "reduced" CO2 emission, but not "business-as-usual" scenarios. This suggests that action taken to limit CO2 emissions may, if the majority of algae behave similarly across all seasons, reduce the potential for phase shifts that lead to algal dominated communities. At the same time the availability of food resources to damselfish and other herbivores would be smaller under "reduced" emission scenarios.
Keyword(s):
Benthos; Biomass/Abundance/Elemental composition; Coast and continental shelf; Community composition and diversity; Containers and aquaria (20-1000 L or < 1 m**2); Entire community; Growth/Morphology; Laboratory experiment; Primary production/Photosynthesis; Respiration; Soft-bottom community; South Pacific; Temperature; Tropical
Further details:
Gattuso, Jean-Pierre; Epitalon, Jean-Marie; Lavigne, Héloïse (2015): seacarb: seawater carbonate chemistry with R. R package version 3.0.8. https://cran.r-project.org/package=seacarb
Coverage:
Latitude: -23.433330 * Longitude: 151.866670
Event(s):
Shark_Bay * Latitude: -23.433330 * Longitude: 151.866670 * Method/Device: Experiment (EXP)
Comment:
In order to allow full comparability with other ocean acidification data sets, the R package seacarb (Gattuso et al, 2015) was used to compute a complete and consistent set of carbonate system variables, as described by Nisumaa et al. (2010). In this dataset the original values were archived in addition with the recalculated parameters (see related PI). The date of carbonate chemistry calculation is 2016-05-16.
Parameter(s):
#NameShort NameUnitPrincipal InvestigatorMethod/DeviceComment
1TypeTypeBender, Dorotheastudy
2SpeciesSpeciesBender, Dorothea
3TreatmentTreatBender, Dorothea
4TreatmentTreatBender, Dorothea
5Sample IDSample IDBender, Dorothea
6Dry massDry mgBender, Dorothea
7Ash free dry massafdmgBender, Dorothea
8Biomass, ash free dry mass per areaBiom afdmg/m2Bender, Dorothea
9HeighthmmBender, Dorothea
10DiameterØmmBender, Dorothea
11Time point, descriptiveTime pointBender, Dorothea
12IdentificationIDBender, Dorotheatank
13ReplicateReplBender, Dorothea
14Numbern#Bender, Dorotheabare
15Numbern#Bender, DorotheaGelidiella pannosa
16Numbern#Bender, DorotheaGelidiella sp
17Numbern#Bender, DorotheaCeramium
18Numbern#Bender, DorotheaGelidiopsis
19Numbern#Bender, DorotheaCentroceras
20Numbern#Bender, DorotheaGelid
21Numbern#Bender, DorotheaLaurencia
22Numbern#Bender, DorotheaLaurencia implicata
23Numbern#Bender, DorotheaHypnea
24Numbern#Bender, DorotheaCoelothrix irregularis
25Numbern#Bender, DorotheaAnotrichium
26Numbern#Bender, DorotheaPolysiphonia
27Numbern#Bender, DorotheaJania
28Numbern#Bender, DorotheaH. onkodes
29Numbern#Bender, DorotheaCCA
30Numbern#Bender, DorotheaCyanobacteria
31Numbern#Bender, DorotheaCyanobacteria epiphytic
32Numbern#Bender, DorotheaDiatoms epiphytic
33Numbern#Bender, DorotheaHincksia mitch
34Numbern#Bender, DorotheaFeldmannia
35Numbern#Bender, DorotheaSphacelaria
36Numbern#Bender, DorotheaSargassum
37Numbern#Bender, DorotheaDictyota adnata
38Numbern#Bender, DorotheaPadina
39Numbern#Bender, DorotheaChnoospora implexa
40Numbern#Bender, DorotheaCladophora
41Numbern#Bender, DorotheaEnteromorpha
42Numbern#Bender, DorotheaDerbesia fastigiata
43Numbern#Bender, DorotheaBryobesia johannae
44Numbern#Bender, DorotheaRhipidosiphon
45Numbern#Bender, DorotheaValonia
46Numbern#Bender, DorotheaPhyllodictyon
47Numbern#Bender, DorotheaVentricaria ventricosa
48Numbern#Bender, DorotheaCladophoropsis membranacea
49Numbern#Bender, DorotheaBoodlea composita
50Numbern#Bender, Dorotheaunknown green
51Numbern#Bender, Dorotheaencrusting green
52Numbern#Bender, DorotheaChaetomorpha
53Numbern#Bender, DorotheaDictyophaeria
54Numbern#Bender, DorotheaPolyphysa
55Numbern#Bender, Dorotheaanimal
56Numbern#Bender, DorotheaMarginopora
57Numbern#Bender, DorotheaBryopsis
58Net photosynthesis rate, oxygenPN O2µmol/g/hBender, Dorotheamax
59Respiration rate, oxygenResp O2µmol/g/hBender, Dorothea
60SalinitySalBender, Dorothea
61Salinity, standard errorSal std e±Bender, Dorothea
62Temperature, waterTemp°CBender, Dorothea
63Temperature, water, standard deviationTemp std dev±Bender, Dorothea
64pHpHBender, Dorotheatotal scale
65pH, standard deviationpH std dev±Bender, Dorotheatotal scale
66Partial pressure of carbon dioxide (water) at sea surface temperature (wet air)pCO2water_SST_wetµatmBender, Dorothea
67Partial pressure of carbon dioxide, standard deviationpCO2 std dev±Bender, DorotheaCalculated using CO2SYS
68Alkalinity, totalATµmol/kgBender, DorotheaPotentiometric titrationday
69Alkalinity, total, standard deviationAT std dev±Bender, DorotheaPotentiometric titrationday
70Alkalinity, totalATµmol/kgBender, DorotheaPotentiometric titrationnight
71Alkalinity, total, standard deviationAT std dev±Bender, DorotheaPotentiometric titrationnight
72Ammonium[NH4]+mg/lBender, Dorothea
73Ammonium, standard error[NH4]+ std e±Bender, Dorothea
74Carbonate system computation flagCSC flagYang, YanCalculated using seacarb after Nisumaa et al. (2010)
75Carbon dioxideCO2µmol/kgYang, YanCalculated using seacarb after Nisumaa et al. (2010)
76Partial pressure of carbon dioxide (water) at sea surface temperature (wet air)pCO2water_SST_wetµatmYang, YanCalculated using seacarb after Nisumaa et al. (2010)
77Fugacity of carbon dioxide (water) at sea surface temperature (wet air)fCO2water_SST_wetµatmYang, YanCalculated using seacarb after Nisumaa et al. (2010)
78Bicarbonate ion[HCO3]-µmol/kgYang, YanCalculated using seacarb after Nisumaa et al. (2010)
79Carbonate ion[CO3]2-µmol/kgYang, YanCalculated using seacarb after Nisumaa et al. (2010)
80Carbon, inorganic, dissolvedDICµmol/kgYang, YanCalculated using seacarb after Nisumaa et al. (2010)
81Aragonite saturation stateOmega ArgYang, YanCalculated using seacarb after Nisumaa et al. (2010)
82Calcite saturation stateOmega CalYang, YanCalculated using seacarb after Nisumaa et al. (2010)
Status:
Curation Level: Enhanced curation (CurationLevelC)
Size:
20970 data points

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