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science.1205134

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Bamstedt, Ulf (1990): Trophodynamics of the scyphomedusae Aurelia aurita. Predation rate in relation to abundance, size and type of prey organism. Journal of Plankton Research, 12(1), 215-229, https://doi.org/10.1093/plankt/12.1.215

Bamstedt, Ulf (1998): Trophodynamics of Pleurobrachia pileus (Ctenophora, Cydippida) and ctenophore summer occurrence off the Norwegian North-West coast. Sarsia, 83(2), 169-181, https://doi.org/10.1080/00364827.1998.10413680

Bamstedt, Ulf; Martinussen, M B; Matsakis, S (1994): Trophodynamics of the two scyphozoan jellyfishes, Aurelia aurita and Cyanea capillata, in western Norway. ICES Journal of Marine Science, 51(4), 369-382, https://doi.org/10.1006/jmsc.1994.1039

Bishop, John W (1968): A Comparative Study of Feeding Rates of Tentaculate Ctenophores. Ecology, 49(5), 996, https://doi.org/10.2307/1936552

Bochdansky, Alexander B; Leggett, William C (2001): Winberg revisited: convergence of routine metabolism in larval and juvenile fish. Canadian Journal of Fisheries and Aquatic Sciences, 58(1), 220-230, https://doi.org/10.1139/f00-226

Buecher, Emmanuelle; Gasser, Beate (1998): Estimation of predatory impact of Pleurobrachia rhodopis (cydippid ctenophore) in the northwestern Mediterranean Sea: in situ observations and laboratory experiments. Journal of Plankton Research, 20(4), 631-651, https://doi.org/10.1093/plankt/20.4.631

Checkley, David M (1984): Relation of growth to ingestion for larvae of Atlantic herring Clupea harengus and other fish. Marine Ecology Progress Series, 18, 215-224, https://doi.org/10.3354/meps018215

Costello, John H; Colin, Sean P (1994): Morphology, fluid motion and predation by the scyphomedusa Aurelia aurita. Marine Biology, 121(2), 327-334, https://doi.org/10.1007/BF00346741

Fancett, Mark S; Jenkins, Greg P (1988): Predatory impact of scyphomedusae on ichthyoplankton and other zooplankton in Port Phillip Bay. Journal of Experimental Marine Biology and Ecology, 116(1), 63-77, https://doi.org/10.1016/0022-0981(88)90246-8

Greene, Charles H; Landry, Michael R; Monger, Bruce C (1986): Foraging Behavior and Prey Selection by the Ambush Entangling Predator Pleurobrachia Bachei. Ecology, 67(6), 1493, https://doi.org/10.2307/1939080

Hansen, Per Juel; Bjørnsen, Peter K; Hansen, Benni Winding (1997): Zooplankton grazing and growth: Scaling within the 2-2,000-µm body size range. Limnology and Oceanography, 42(4), 687-704, https://doi.org/10.4319/lo.1997.42.4.0687

Houde, Edward D; Schekter, Richard C (1980): Feeding by marine fish larvae: developmental and functional responses. Environmental Biology of Fishes, 5, 315-334, https://doi.org/10.1007/BF00005186

Ikeda, Tsutomu; Skjoldal, Hein Rune (1989): Metabolism and elemental composition of zooplankton from the Barents Sea during early Arctic summer. Marine Biology, 100(2), 173-183, https://doi.org/10.1007/BF00391956

Kiørboe, Thomas; Munk, Peter; Richardson, Katherine (1987): Respiration and growth of larval herring Clupea harengus: relation between specific dynamic action and growth efficiency. Marine Ecology Progress Series, 40, 1-10, https://doi.org/10.3354/meps040001

Kremer, Patricia; Nixon, S (1976): Distribution and abundance of the ctenophore, Mnemiopsis leidyi in Narragansett Bay. Estuarine, Coastal and Shelf Science, 4(6), 627-639, https://doi.org/10.1016/0302-3524(76)90071-2

Kremer, Patricia; Reeve, M R; Syms, Mary Ann (1986): The nutritional ecology of the ctenophore Bolinopsis vitrea: comparisons with Mnemiopsis mccradyi from the same region. Journal of Plankton Research, 8(6), 1197-1208, https://doi.org/10.1093/plankt/8.6.1197

Martinussen, M B; Bamstedt, Ulf (1999): Nutritional ecology of gelatinous planktonic predators. Digestion rate in relation to type and amount of prey. Journal of Experimental Marine Biology and Ecology, 232(1), 61-84, https://doi.org/10.1016/S0022-0981(98)00101-4

Miller, Thomas J; Crowder, Larry B; Rice, James A; Binkowski, Fred P (1992): Body Size and the Ontogeny of the Functional Response in Fishes. Canadian Journal of Fisheries and Aquatic Sciences, 49, 805-812, https://doi.org/10.1139/f92-091

Møller, Lene Friis; Riisgard, Hans Ulrik (2007): Feeding, bioenergetics and growth in the common jellyfish Aurelia aurita and two hydromedusae, Sarsia tubulosa and Aequorea vitrina. Marine Ecology Progress Series, 346, 167-177, https://doi.org/10.3354/meps06959

Morand, Pierre; Carré, Claude; Biggs, Douglas C (1987): Feeding and metabolism of the jellyfish Pelagia noctiluca (scyphomedusae, semaeostomae). Journal of Plankton Research, 9(4), 651-665, https://doi.org/10.1093/plankt/9.4.651

Munk, Peter (1995): Foraging behaviour of larval cod (Gadus morhua) influenced by prey density and hunger. Marine Biology, 122(2), 205-212, https://doi.org/10.1007/BF00348933

Post, John R; Lee, Julie A (1996): Metabolic ontogeny of teleost fishes. Canadian Journal of Fisheries and Aquatic Sciences, 53(4), 910-923, https://doi.org/10.1139/cjfas-53-4-910

Reeve, M R (1980): Comparative experimental studies on the feeding of chaetognaths and ctenophores. Journal of Plankton Research, 2(4), 381-393, https://doi.org/10.1093/plankt/2.4.381

Reeve, M R; Walter, M A; Ikeda, Tsutomu (1978): Laboratory studies of ingestion and food utilization in lobate and tentaculate ctenophores. Limnology and Oceanography, 23(4), 740-751, https://doi.org/10.4319/lo.1978.23.4.0740

Stepien, W P (1976): Feeding of Laboratory-Reared Larvae of the Sea Bream Archosargus rhomboidalis (Sparidae). Marine Biology, 38, 1-16, https://doi.org/10.1007/BF00391480

Thibault-Botha, Delphine; Bowen, Terra (2004): Impact of formalin preservation on Pleurobrachia bachei (Ctenophora). Journal of Experimental Marine Biology and Ecology, 303(1), 11-17, https://doi.org/10.1016/j.jembe.2003.10.017

Uye, Shin-ichi; Shimauchi, H (2005): Population biomass, feeding, respiration and growth rates, and carbon budget of the scyphomedusa Aurelia aurita in the Inland Sea of Japan. Journal of Plankton Research, 27(3), 237-248, https://doi.org/10.1093/plankt/fbh172

Source:

A Global Information System on Fishes (FishBase)

Comment:

Data were extracted from tables or digitized from figures reported in the original papers (Reference). When body mass was not given in the specific unit in the orginal paper, it was converted as indicated under "Comment".

Parameter(s):

#	Name	Short Name	Unit	Principal Investigator	Method/Device	Comment
1	Species	Species		Acuña, José Luis
2	Name	Name		Acuña, José Luis		vernacular name
3	Uniform resource locator/link to reference	URL ref		Acuña, José Luis		WoRMS Aphia ID
4	Type	Type		Acuña, José Luis		functional type
5	Clearance rate	CR	l/day	Acuña, José Luis		per individual
6	Treatment: temperature	T:temp	°C	Acuña, José Luis
7	Body mass, wet	BM wet	mg	Acuña, José Luis	Calculated, see reference(s)	per individual
8	Body mass, dry	BM dry	mg	Acuña, José Luis	Calculated, see reference(s)	per individual
9	Body mass as carbon	BM C	mg	Acuña, José Luis	Calculated, see reference(s)	per individual
10	Comment	Comment		Acuña, José Luis		DW = dry weight, WW = wet weight, CW = carbon weight
11	Reference/source	Reference		Acuña, José Luis

License:

Creative Commons Attribution 3.0 Unported (CC-BY-3.0)

Size:

907 data points

Data

Download dataset as tab-delimited text — use the following character encoding:

1 Species	2 Name	3 URL ref	4 Type	5 CR [l/day]	6 T:temp [°C]	7 BM wet [mg]	8 BM dry [mg]	9 BM C [mg]	10 Comment	11 Reference
Aurelia aurita	common jellyfish, moon jelly, moon jellyfish	marinespecies.org	Jellyfish	.164E2	20.0	.227E-2	.504E-4	.252E-5	DW and CW conversion factors in Møller and Riisgård (2007); WW from bell diameter using equation in Uye and Shimauchi (2005).	Båmstedt (1990)
Aurelia aurita	common jellyfish, moon jelly, moon jellyfish	marinespecies.org	jellyfish	.251E2	20.0	.286E-1	.550E-3	.275E-4	DW and CW conversion factors in Møller and Riisgård (2007); WW from bell diameter using equation in Uye and Shimauchi (2005).	Båmstedt (1990)
Aurelia aurita	common jellyfish, moon jelly, moon jellyfish	marinespecies.org	jellyfish	.600E3	20.0	.126E-1	.253E-3	.126E-4	DW and CW conversion factors in Møller and Riisgård (2007); WW from bell diameter using equation in Uye and Shimauchi (2005).	Båmstedt (1994)
Cyanea capillata	lions mane, lions mane jellyfish, lions mane yellyfish	marinespecies.org	jellyfish	.111E3	20.0	.141E-1	.479E-3	.239E-4	DW from WW from equation in Martinussen and Båmstedt (1995), carbon assuming 0.05% DW.	Båmstedt (1994)
Cyanea capillata	lions mane, lions mane jellyfish, lions mane yellyfish	marinespecies.org	jellyfish	.162E3		.558E-1	.172E-2	.860E-4	DW from WW from equation in Martinussen and Båmstedt (1995), carbon assuming 0.05% DW.	Båmstedt (1994)
Pleurobrachia pileus	sea gooseberry	marinespecies.org	jellyfish	.610E1		.119E-2	.237E-4	.119E-5	DW from length following Thiebault and Bowen (2004), from DW to CW assuming 0.05%DW; from DW to WW using conversion of 0.02 from Ikeda and Skjoldal (1989).	Båmstedt (1998)
Bolinopsis infundibulum	common northern comb jelly	marinespecies.org	jellyfish	.211E1		.970E-3	.378E-4	.189E-5	DW from WW from equation in Martinussen and Båmstedt (1995), carbon assuming 0.05% DW.	Bishop (1968)
Pleurobrachia bachei		marinespecies.org	jellyfish	.163E1		.498E-3	.996E-5	.498E-6	DW from length following Thiebault and Bowen (2004), from DW to CW assuming 0.05%DW; from DW to WW using conversion of 0.02 from Ikeda and Skjoldal (1989).	Bishop (1968)
Pleurobrachia rhodopis		marinespecies.org	jellyfish	.300E0		.379E-5	.759E-7	.379E-8	DW from length following Thiebault and Bowen (2004), from DW to CW assuming 0.05%DW; from DW to WW using conversion of 0.02 from Ikeda and Skjoldal (1989).	Buecher and Gasser (1998)
Pleurobrachia rhodopis		marinespecies.org	jellyfish	.325E1		.135E-3	.270E-5	.135E-6	DW from length following Thiebault and Bowen (2004), from DW to CW assuming 0.05%DW; from DW to WW using conversion of 0.02 from Ikeda and Skjoldal (1989).	Buecher and Gasser (1998)
Cyanea capillata	lions mane, lions mane jellyfish, lions mane yellyfish	marinespecies.org	jellyfish	.542E2		.185E-2	.726E-4	.363E-5	DW from WW from equation in Martinussen and Båmstedt (1995), carbon assuming 0.05% DW.	Fancett and Jenkins (1988)
Cyanea capillata	lions mane, lions mane jellyfish, lions mane yellyfish	marinespecies.org	jellyfish	.120E3		.141E-1	.479E-3	.239E-4	DW from WW from equation in Martinussen and Båmstedt (1995), carbon assuming 0.05% DW.	Fancett and Jenkins (1988)
Cyanea capillata	lions mane, lions mane jellyfish, lions mane yellyfish	marinespecies.org	jellyfish	.449E3		.107E0	.316E-2	.158E-3	DW from WW from equation in Martinussen and Båmstedt (1995), carbon assuming 0.05% DW.	Fancett and Jenkins (1988)
Pseudorhiza haeckeli		marinespecies.org	jellyfish	.240E3		.595E-3	.238E-4	.119E-5	DW and CW conversion factors in Møller and Riisgård (2007), WW assuming 96.6% water content in Larson (1986).	Fancett and Jenkins (1988)
Pseudorhiza haeckeli		marinespecies.org	jellyfish	.508E3		.387E-2	.155E-3	.773E-5	DW and CW conversion factors in Møller and Riisgård (2007), WW assuming 96.6% water content in Larson (1986).	Fancett and Jenkins (1988)
Pseudorhiza haeckeli		marinespecies.org	jellyfish	.985E3		.251E-1	.100E-2	.502E-4	DW and CW conversion factors in Møller and Riisgård (2007), WW assuming 96.6% water content in Larson (1986).	Fancett and Jenkins (1988)
Pleurobrachia bachei		marinespecies.org	jellyfish	.835E1		.384E-3	.767E-5	.384E-6	DW from length following Thiebault and Bowen (2004), from DW to CW assuming 0.05%DW; from DW to WW using conversion of 0.02 from Ikeda and Skjoldal (1989).	Greene et al. (1986)
Pleurobrachia bachei		marinespecies.org	jellyfish	.556E1		.384E-3	.767E-5	.384E-6	DW from length following Thiebault and Bowen (2004), from DW to CW assuming 0.05%DW; from DW to WW using conversion of 0.02 from Ikeda and Skjoldal (1989).	Greene et al. (1986)
Acartia (Acanthacartia) tonsa		marinespecies.org	Crustaceans	.149E-1	18.0	.298E-7	.106E-7	.477E-8	WW from biovolume (1cm3=1gr) in original paper; carbon from WW using 0.12gC/cm3 and DW from carbon using 1/0,45 both in pag. 689 of source paper.	Hansen et al. (2007)
Acartia (Acartiura) hudsonica		marinespecies.org	Crustaceans	.233E-1	16.0	.865E-7	.308E-7	.138E-7	WW from biovolume (1cm3=1gr) in original paper; carbon from WW using 0.12gC/cm3 and DW from carbon using 1/0,45 both in pag. 689 of source paper.	Hansen et al. (2007)
Aetideus divergens		marinespecies.org	Crustaceans	.208E-1	12.0	.177E-6	.629E-7	.283E-7	WW from biovolume (1cm3=1gr) in original paper; carbon from WW using 0.12gC/cm3 and DW from carbon using 1/0,45 both in pag. 689 of source paper.	Hansen et al. (2007)
Aetideus divergens		marinespecies.org	Crustaceans	.905E-2	12.0	.177E-6	.629E-7	.283E-7	WW from biovolume (1cm3=1gr) in original paper; carbon from WW using 0.12gC/cm3 and DW from carbon using 1/0,45 both in pag. 689 of source paper.	Hansen et al. (2007)
Aetideus divergens		marinespecies.org	Crustaceans	.101E-1	12.0	.177E-6	.629E-7	.283E-7	WW from biovolume (1cm3=1gr) in original paper; carbon from WW using 0.12gC/cm3 and DW from carbon using 1/0,45 both in pag. 689 of source paper.	Hansen et al. (2007)
Calanus helgolandicus		marinespecies.org	Crustaceans	.938E0	10.0	.416E-6	.148E-6	.666E-7	WW from biovolume (1cm3=1gr) in original paper; carbon from WW using 0.12gC/cm3 and DW from carbon using 1/0,45 both in pag. 689 of source paper.	Hansen et al. (2007)
Calanus pacificus		marinespecies.org	Crustaceans	.171E0	12.5	.637E-6	.226E-6	.102E-6	WW from biovolume (1cm3=1gr) in original paper; carbon from WW using 0.12gC/cm3 and DW from carbon using 1/0,45 both in pag. 689 of source paper.	Hansen et al. (2007)
Calanus pacificus		marinespecies.org	Crustaceans	.209E0	12.5	.637E-6	.226E-6	.102E-6	WW from biovolume (1cm3=1gr) in original paper; carbon from WW using 0.12gC/cm3 and DW from carbon using 1/0,45 both in pag. 689 of source paper.	Hansen et al. (2007)
Calanus pacificus		marinespecies.org	Crustaceans	.261E0	12.5	.637E-6	.226E-6	.102E-6	WW from biovolume (1cm3=1gr) in original paper; carbon from WW using 0.12gC/cm3 and DW from carbon using 1/0,45 both in pag. 689 of source paper.	Hansen et al. (2007)
Centropages hamatus		marinespecies.org	Crustaceans	.495E-1	15.0	.480E-7	.171E-7	.768E-8	WW from biovolume (1cm3=1gr) in original paper; carbon from WW using 0.12gC/cm3 and DW from carbon using 1/0,45 both in pag. 689 of source paper.	Hansen et al. (2007)
Diaptomus gracilis		marinespecies.org	Crustaceans	.111E-1	5.0	.330E-7	.117E-7	.528E-8	WW from biovolume (1cm3=1gr) in original paper; carbon from WW using 0.12gC/cm3 and DW from carbon using 1/0,45 both in pag. 689 of source paper.	Hansen et al. (2007)
Eucalanus pileatus		marinespecies.org	Crustaceans	.872E0	20.0	.982E-7	.349E-7	.157E-7	WW from biovolume (1cm3=1gr) in original paper; carbon from WW using 0.12gC/cm3 and DW from carbon using 1/0,45 both in pag. 689 of source paper.	Hansen et al. (2007)
Oithona nana		marinespecies.org	Crustaceans	.219E-3	10.0	.190E-8	.676E-9	.304E-9	WW from biovolume (1cm3=1gr) in original paper; carbon from WW using 0.12gC/cm3 and DW from carbon using 1/0,45 both in pag. 689 of source paper.	Hansen et al. (2007)
Pseudocalanus		marinespecies.org	Crustaceans	.735E-1	12.5	.666E-7	.237E-7	.107E-7	WW from biovolume (1cm3=1gr) in original paper; carbon from WW using 0.12gC/cm3 and DW from carbon using 1/0,45 both in pag. 689 of source paper.	Hansen et al. (2007)
Achirus lineatus	lined sole	marinespecies.org	fish	.216E0	28.0	.100E-6	.100E-7	.364E-8	CW from DW using conversion factor of 0.364 from Checkley Jr. (1984).	Houde and Schekter (1980)
Achirus lineatus	lined sole	marinespecies.org	fish	.504E0	28.0	.150E-6	.150E-7	.546E-8	CW from DW using conversion factor of 0.364 from Checkley Jr. (1984).	Houde and Schekter (1980)
Achirus lineatus	lined sole	marinespecies.org	fish	.792E0	28.0	.200E-6	.200E-7	.728E-8	CW from DW using conversion factor of 0.364 from Checkley Jr. (1984).	Houde and Schekter (1980)
Achirus lineatus	lined sole	marinespecies.org	fish	.108E1	28.0	.500E-6	.500E-7	.182E-7	CW from DW using conversion factor of 0.364 from Checkley Jr. (1984).	Houde and Schekter (1980)
Achirus lineatus	lined sole	marinespecies.org	fish	.202E1	28.0	.100E-5	.100E-6	.364E-7	CW from DW using conversion factor of 0.364 from Checkley Jr. (1984).	Houde and Schekter (1980)
Achirus lineatus	lined sole	marinespecies.org	fish	.336E1	28.0	.200E-5	.200E-6	.728E-7	CW from DW using conversion factor of 0.364 from Checkley Jr. (1984).	Houde and Schekter (1980)
Anchoa mitchilli	bay anchovy	marinespecies.org	fish	.624E0	26.0	.100E-6	.100E-7	.364E-8	CW from DW using conversion factor of 0.364 from Checkley Jr. (1984).	Houde and Schekter (1980)
Anchoa mitchilli	bay anchovy	marinespecies.org	fish	.139E1	26.0	.150E-6	.150E-7	.546E-8	CW from DW using conversion factor of 0.364 from Checkley Jr. (1984).	Houde and Schekter (1980)
Anchoa mitchilli	bay anchovy	marinespecies.org	fish	.214E1	26.0	.200E-6	.200E-7	.728E-8	CW from DW using conversion factor of 0.364 from Checkley Jr. (1984).	Houde and Schekter (1980)
Anchoa mitchilli	bay anchovy	marinespecies.org	fish	.600E1	26.0	.500E-6	.500E-7	.182E-7	CW from DW using conversion factor of 0.364 from Checkley Jr. (1984).	Houde and Schekter (1980)
Anchoa mitchilli	bay anchovy	marinespecies.org	fish	.547E1	26.0	.100E-5	.100E-6	.364E-7	CW from DW using conversion factor of 0.364 from Checkley Jr. (1984).	Houde and Schekter (1980)
Anchoa mitchilli	bay anchovy	marinespecies.org	fish	.876E1	26.0	.200E-5	.200E-6	.728E-7	CW from DW using conversion factor of 0.364 from Checkley Jr. (1984).	Houde and Schekter (1980)
Archosargus rhomboidalis	sea bream, Western Atlantic seabream	marinespecies.org	fish	.504E0	26.0	.100E-6	.100E-7	.364E-8	CW from DW using conversion factor of 0.364 from Checkley Jr. (1984).	Houde and Schekter (1980)
Archosargus rhomboidalis	sea bream, Western Atlantic seabream	marinespecies.org	fish	.936E0	26.0	.150E-6	.150E-7	.546E-8	CW from DW using conversion factor of 0.364 from Checkley Jr. (1984).	Houde and Schekter (1980)
Archosargus rhomboidalis	sea bream, Western Atlantic seabream	marinespecies.org	fish	.134E1	26.0	.200E-6	.200E-7	.728E-8	CW from DW using conversion factor of 0.364 from Checkley Jr. (1984).	Houde and Schekter (1980)
Archosargus rhomboidalis	sea bream, Western Atlantic seabream	marinespecies.org	fish	.451E1	26.0	.500E-6	.500E-7	.182E-7	CW from DW using conversion factor of 0.364 from Checkley Jr. (1984).	Houde and Schekter (1980)
Archosargus rhomboidalis	sea bream, Western Atlantic seabream	marinespecies.org	fish	.384E1	26.0	.100E-5	.100E-6	.364E-7	CW from DW using conversion factor of 0.364 from Checkley Jr. (1984).	Houde and Schekter (1980)
Archosargus rhomboidalis	sea bream, Western Atlantic seabream	marinespecies.org	fish	.629E1	26.0	.200E-5	.200E-6	.728E-7	CW from DW using conversion factor of 0.364 from Checkley Jr. (1984).	Houde and Schekter (1980)
Engraulis capensis		marinespecies.org	fish	.207E5	16.2	.571E-2	.951E-3	.346E-3	Length to WW using relationships in Froese and Pauly (2009); WW to DW assuming a 1:6 ration from Post and Lee (1996); see also reference: Bochdansky and Leggett (2001); from DW to CW carbon using a 0.364 ratio in Checkley Jr. (1984).	James and Findlay (1989)
Engraulis capensis		marinespecies.org	fish	.320E5	16.2	.571E-2	.951E-3	.346E-3	Length to WW using relationships in Froese and Pauly (2009); WW to DW assuming a 1:6 ration from Post and Lee (1996); see also reference: Bochdansky and Leggett (2001); from DW to CW carbon using a 0.364 ratio in Checkley Jr. (1984).	James and Findlay (1989)
Engraulis capensis		marinespecies.org	fish	.173E5	16.2	.571E-2	.951E-3	.346E-3	Length to WW using relationships in Froese and Pauly (2009); WW to DW assuming a 1:6 ration from Post and Lee (1996); see also reference: Bochdansky and Leggett (2001); from DW to CW carbon using a 0.364 ratio in Checkley Jr. (1984).	James and Findlay (1989)
Engraulis capensis		marinespecies.org	fish	.302E5	16.2	.571E-2	.951E-3	.346E-3	Length to WW using relationships in Froese and Pauly (2009); WW to DW assuming a 1:6 ration from Post and Lee (1996); see also reference: Bochdansky and Leggett (2001); from DW to CW carbon using a 0.364 ratio in Checkley Jr. (1984).	James and Findlay (1989)
Bolinopsis vitrea		marinespecies.org	jellyfish	.130E2		.177E-3	.768E-5	.384E-6	DW from WW from equation in Martinussen and Båmstedt (1995), carbon assuming 0.05% DW.	Kremer et al. (1986)
Bolinopsis vitrea		marinespecies.org	jellyfish	.700E2		.528E-2	.186E-3	.929E-5	DW from WW from equation in Martinussen and Båmstedt (1995), carbon assuming 0.05% DW.	Kremer et al. (1986)
Aurelia aurita	common jellyfish, moon jelly, moon jellyfish	marinespecies.org	jellyfish	.363E3		.247E0	.421E-2	.210E-3	DW and CW conversion factors in Møller and Riisgård (2007), WW assuming 96.6% water content in Larson (1986).	Martinussen and Båmstedt (1995)
Cyanea capillata	lions mane, lions mane jellyfish, lions mane yellyfish	marinespecies.org	jellyfish	.190E4		.506E0	.134E-1	.669E-3	DW from WW from equation in Martinussen and Båmstedt (1995), carbon assuming 0.05% DW.	Martinussen and Båmstedt (1995)
Alosa pseudoharengus	alewife, ale-wife, gaspareau, gaspereau, sawbellies	marinespecies.org	fish	.246E1	15.0	.850E-5	.142E-5	.516E-6	Length to WW using relationships in Froese and Pauly (2009); WW to DW assuming a 1:6 ration from Post and Lee (1996); see also reference: Bochdansky and Leggett (2001); from DW to CW carbon using a 0.364 ratio in Checkley Jr. (1984).	Miller et al. (1992)
Alosa pseudoharengus	alewife, ale-wife, gaspareau, gaspereau, sawbellies	marinespecies.org	fish	.242E3	15.0	.680E-4	.113E-4	.413E-5	Length to WW using relationships in Froese and Pauly (2009); WW to DW assuming a 1:6 ration from Post and Lee (1996); see also reference: Bochdansky and Leggett (2001); from DW to CW carbon using a 0.364 ratio in Checkley Jr. (1984).	Miller et al. (1992)
Alosa pseudoharengus	alewife, ale-wife, gaspareau, gaspereau, sawbellies	marinespecies.org	fish	.181E3	15.0	.230E-3	.383E-4	.139E-4	Length to WW using relationships in Froese and Pauly (2009); WW to DW assuming a 1:6 ration from Post and Lee (1996); see also reference: Bochdansky and Leggett (2001); from DW to CW carbon using a 0.364 ratio in Checkley Jr. (1984).	Miller et al. (1992)
Alosa pseudoharengus	alewife, ale-wife, gaspareau, gaspereau, sawbellies	marinespecies.org	fish	.467E4	15.0	.544E-3	.907E-4	.330E-4	Length to WW using relationships in Froese and Pauly (2009); WW to DW assuming a 1:6 ration from Post and Lee (1996); see also reference: Bochdansky and Leggett (2001); from DW to CW carbon using a 0.364 ratio in Checkley Jr. (1984).	Miller et al. (1992)
Coregonus	whitefish	marinespecies.org	fish	.207E2	15.0	.850E-5	.142E-5	.516E-6	Length to WW using relationships in Froese and Pauly (2009); WW to DW assuming a 1:6 ration from Post and Lee (1996); see also reference: Bochdansky and Leggett (2001); from DW to CW carbon using a 0.364 ratio in Checkley Jr. (1984).	Miller et al. (1992)
Coregonus	whitefish	marinespecies.org	fish	.337E3	15.0	.287E-4	.478E-5	.174E-5	Length to WW using relationships in Froese and Pauly (2009); WW to DW assuming a 1:6 ration from Post and Lee (1996); see also reference: Bochdansky and Leggett (2001); from DW to CW carbon using a 0.364 ratio in Checkley Jr. (1984).	Miller et al. (1992)
Coregonus	whitefish	marinespecies.org	fish	.130E4	15.0	.680E-4	.113E-4	.413E-5	Length to WW using relationships in Froese and Pauly (2009); WW to DW assuming a 1:6 ration from Post and Lee (1996); see also reference: Bochdansky and Leggett (2001); from DW to CW carbon using a 0.364 ratio in Checkley Jr. (1984).	Miller et al. (1992)
Coregonus	whitefish	marinespecies.org	fish	.207E4	15.0	.230E-3	.383E-4	.139E-4	Length to WW using relationships in Froese and Pauly (2009); WW to DW assuming a 1:6 ration from Post and Lee (1996); see also reference: Bochdansky and Leggett (2001); from DW to CW carbon using a 0.364 ratio in Checkley Jr. (1984).	Miller et al. (1992)
Coregonus	whitefish	marinespecies.org	fish	.544E4	15.0	.544E-3	.907E-4	.330E-4	Length to WW using relationships in Froese and Pauly (2009); WW to DW assuming a 1:6 ration from Post and Lee (1996); see also reference: Bochdansky and Leggett (2001); from DW to CW carbon using a 0.364 ratio in Checkley Jr. (1984).	Miller et al. (1992)
Perca flavescens	yellow perch	marinespecies.org	fish	.311E1	15.0	.850E-5	.142E-5	.516E-6	Length to WW using relationships in Froese and Pauly (2009); WW to DW assuming a 1:6 ration from Post and Lee (1996); see also reference: Bochdansky and Leggett (2001); from DW to CW carbon using a 0.364 ratio in Checkley Jr. (1984).	Miller et al. (1992)
Perca flavescens	yellow perch	marinespecies.org	fish	.121E3	15.0	.287E-4	.478E-5	.174E-5	Length to WW using relationships in Froese and Pauly (2009); WW to DW assuming a 1:6 ration from Post and Lee (1996); see also reference: Bochdansky and Leggett (2001); from DW to CW carbon using a 0.364 ratio in Checkley Jr. (1984).	Miller et al. (1992)
Perca flavescens	yellow perch	marinespecies.org	fish	.950E2	15.0	.680E-4	.113E-4	.413E-5	Length to WW using relationships in Froese and Pauly (2009); WW to DW assuming a 1:6 ration from Post and Lee (1996); see also reference: Bochdansky and Leggett (2001); from DW to CW carbon using a 0.364 ratio in Checkley Jr. (1984).	Miller et al. (1992)
Perca flavescens	yellow perch	marinespecies.org	fish	.164E3	15.0	.230E-3	.383E-4	.139E-4	Length to WW using relationships in Froese and Pauly (2009); WW to DW assuming a 1:6 ration from Post and Lee (1996); see also reference: Bochdansky and Leggett (2001); from DW to CW carbon using a 0.364 ratio in Checkley Jr. (1984).	Miller et al. (1992)
Perca flavescens	yellow perch	marinespecies.org	fish	.121E4	15.0	.544E-3	.907E-4	.330E-4	Length to WW using relationships in Froese and Pauly (2009); WW to DW assuming a 1:6 ration from Post and Lee (1996); see also reference: Bochdansky and Leggett (2001); from DW to CW carbon using a 0.364 ratio in Checkley Jr. (1984).	Miller et al. (1992)
Pelagia noctiluca	mauve stinger, purplestripped jelly	marinespecies.org	jellyfish	.320E1	21.0	.424E-4	.591E-6	.664E-7	Equations in original paper.	Morand et al. (1987)
Pelagia noctiluca	mauve stinger, purplestripped jelly	marinespecies.org	jellyfish	.108E2	21.0	.227E-3	.431E-5	.348E-6	Equations in original paper.	Morand et al. (1987)
Pelagia noctiluca	mauve stinger, purplestripped jelly	marinespecies.org	jellyfish	.165E3	21.0	.529E-2	.179E-3	.778E-5	Equations in original paper.	Morand et al. (1987)
Clupea harengus	Atlantic herring, hafsíld, herring	marinespecies.org	fish	.324E2	10.0	.885E-6	.147E-6	.664E-7	DW from length from Checkley Jr. (1984); from DW to CW using a 0.45 conversion coefficient fromKiorbøe et al. (1987); from DW to WW using the inverse of relationship in Post and Lee (1996); see also reference Bochdansky and Leggett (2001).	Munk (1995)
Clupea harengus	Atlantic herring, hafsíld, herring	marinespecies.org	fish	.976E2	10.0	.319E-5	.531E-6	.239E-6	DW from length from Checkley Jr. (1984); from DW to CW using a 0.45 conversion coefficient fromKiorbøe et al. (1987); from DW to WW using the inverse of relationship in Post and Lee (1996); see also reference Bochdansky and Leggett (2001).	Munk (1995)
Clupea harengus	Atlantic herring, hafsíld, herring	marinespecies.org	fish	.537E4	10.0	.651E-4	.109E-4	.488E-5	DW from length from Checkley Jr. (1984); from DW to CW using a 0.45 conversion coefficient fromKiorbøe et al. (1987); from DW to WW using the inverse of relationship in Post and Lee (1996); see also reference Bochdansky and Leggett (2001).	Munk (1995)
Clupea harengus	Atlantic herring, hafsíld, herring	marinespecies.org	fish	.976E4	10.0	.258E-3	.429E-4	.193E-4	DW from length from Checkley Jr. (1984); from DW to CW using a 0.45 conversion coefficient fromKiorbøe et al. (1987); from DW to WW using the inverse of relationship in Post and Lee (1996); see also reference Bochdansky and Leggett (2001).	Munk (1995)
Clupea harengus	Atlantic herring, hafsíld, herring	marinespecies.org	fish	.117E3	10.0	.300E-7	.500E-8	.225E-8	DW from length from Checkley Jr. (1984); from DW to CW using a 0.45 conversion coefficient fromKiorbøe et al. (1987); from DW to WW using the inverse of relationship in Post and Lee (1996); see also reference Bochdansky and Leggett (2001).	Munk (1995)
Bolinopsis infundibulum	common northern comb jelly	marinespecies.org	jellyfish	.740E0	20.0	.633E-3	.254E-4	.127E-5	DW from WW from equation in Martinussen and Båmstedt (1995), carbon assuming 0.05% DW.	Reeve (1980)
Bolinopsis infundibulum	common northern comb jelly	marinespecies.org	Jellyfish	.242E1	20.0	.815E-3	.321E-4	.161E-5	DW from WW from equation in Martinussen and Båmstedt (1995), carbon assuming 0.05% DW.	Reeve (1980)
Mnemiopsis mccradyi		marinespecies.org	jellyfish	.200E1	26.0	.441E-3	.150E-4	.255E-6	From length relationship in Kremer and Nixon (1976) (c.f. ref. [Costello and Colin (1994)]).	Reeve et al. (1978)
Mnemiopsis mccradyi		marinespecies.org	jellyfish	.250E2	26.0	.524E-2	.178E-3	.303E-5	From length relationship in Kremer and Nixon (1976) (c.f. ref. [Costello and Colin (1994)]).	Reeve et al. (1978)
Mnemiopsis mccradyi		marinespecies.org	jellyfish	.300E2	26.0	.256E-1	.870E-3	.148E-4	From length relationship in Kremer and Nixon (1976) (c.f. ref. [Costello and Colin (1994)]).	Reeve et al. (1978)
Pleurobrachia bachei		marinespecies.org	jellyfish	.355E0	20.0	.203E-3	.405E-5	.203E-6	DW from length following Thiebault and Bowen (2004), from DW to CW assuming 0.05%DW; from DW to WW using conversion of 0.02 from Ikeda and Skjoldal (1989).	Reeve et al. (1978)
Archosargus rhomboidalis	sea bream, Western Atlantic seabream	marinespecies.org	fish	.300E1	26.0	.647E-5	.647E-6	.236E-6	CW from DW using conversion factor of 0.364 from Checkley Jr. (1984).	Stepien Jr. (1976)