DOCSLIB.ORG

Information to Users

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Information to Users INFORMATION TO USERS This manuscript has been reproduced from the microfilm master. UMI films the text directly from the original or copy submitted. Thus, some thesis and dissertation copies are in typewriter face, while others may be from any type of computer printer. The quality of this reproduction is dependent upon the quality of the copy submitted. Broken or indistinct print, colored or poor quality illustrations and photographs, print bleedthrough, substandardmargins, and improper alignment can adversely affect reproduction. In the unlikely event that the author did not send UMI a complete manuscript and there are missing pages, these will be noted. Also, if unauthorized copyright material had to be removed, a note will indicate the deletion. Oversize materials (e.g., maps, drawings, charts) are reproduced by sectioning the original, beginning at the upper left-hand comer and continuing from left to right in equal sections with small overlaps. Each original is also photographed in one exposure and is included in reduced form at the back of the book. Photographs included in the original manuscript have been reproduced xerographically in this copy. Higher quality 6" x 9" black and white photographic prints are available for any photographs or illustrations appearing in this copy for an additional charge. Contact UMI directly to order. University Microfilms International A Bell & Howell Information Company 300 North Zeeb Road. Ann Arbor. Ml 48106-1346 USA 313/761-4700 800/521-0600 Order Number 9421005 Effects of fertilization and fish predation on trophic dynamics in aquatic ecosystems Qin, Jianguang, Ph.D. The Ohio State University, 1994 UMI 300 N. ZeebRd. Ann Arbor, MI 48106 EFFECTS OF FERTILIZATION AND FISH PREDATION ON TROPHIC DYNAMICS IN AQUATIC ECOSYSTEMS DISSERTATION Presented in Partial Fulfillment of the Requirements for the Degree Doctor of Philosophy in the Graduate School of the Ohio State University By Jianguang Qin, B.S., M.S. ★ * * * * The Ohio State University 1994 Dissertation Committee: Approved by David A. Culver Konrad Dabrowski William J. Mitsch Department of Zoology EFFECTS OF FERTILIZATION AND FISH PREDATION ON TROPHIC DYNAMICS IN AQUATIC ECOSYSTEMS By Jianguang Qin The Ohio State University, 1994 Associate Professor David A. Culver Abstract The impacts of nutrient and fish predation on trophic dynamics were studied by measuring the abundances of bacteria, phytoplankton and zooplankton, and fish growth and survival in ponds, enclosures and laboratory experiments. Two fertilizer types: inorganic fertilizer vs. organic fertilizer and two larval fish (8 mm TL) species: walleye (Stizostedion vitreum) and saugeye, a hybrid of walleye $ and sauger <J (Stizostedion canadense) were involved in the experimental manipulations. First, nutrient effects on plankton abundance and fish survival were tested in ponds using two fertilization regimens: inorganic fertilizer vs. inorganic plus organic fertilizer with a constant fish stocking density (25 fish m'3). The abundances of phytoplankton and zooplankton were not significantly different between the treatments, but fish survival in ponds with organic fertilizer was significantly lower due to low dissolved oxygen. The enclosure and laboratory experiments showed that organic fertilizer stimulated more growth of bacteria and flagellates than it did of other algae. Organic fertilizer increased oxygen consumption but not oxygen production. Because of low nitrogen and ii phosphorus contents and a high oxygen consumption rate, organic fertilizer is unlikely to provide adequate nutrients for algae and sufficient oxygen for fish. Second, within the context of the trophic cascade hypothesis, I tested the larval fish impact on plankton community structure. A 2x2 factorial design experiment, using two species of larval fish (walleye, saugeye) and two stocking densities (10 and 50 m'3), was performed while nutrient input remained the same in each treatment. The experiment demonstrated that larval walleye and saugeye at high density decreased large zooplankton but increased phytoplankton. Fish impacts on plankton biomass depended on fish density rather than fish species, suggesting that walleye and saugeye can be managed similarly. Finally, a factorial design experiment performed in experimental ponds, in which three densities (0, 25, 50 fish m'3) of larval walleye were cross-classified with two fertilizer types (inorganic or organic), demonstrated that phytoplankton abundance was enhanced by either increasing fish density or adding inorganic fertilizer, whereas zooplankton was suppressed only by increasing walleye density. Chironomid larval abundance was enhanced by adding organic fertilizer. The best fish growth was obtained in ponds with low fish density and inorganic fertilizer. To Stephanie, Ranming and my parents ACKNOWLEDGEMENTS I would especially like to thank my advisor, Dr. David A. Culver for his constant guidance, support and encouragement throughout my doctoral program here at The Ohio State University. I would like to extend my deepest appreciation to him for the opportunities he has provided me, and for the faith he placed in the projects I undertook. I would like to thank Drs. Konrad Dabrowski, William Mitsch and Bruce Vondracek for serving on my general examination committee, and providing many useful suggestions throughout my dissertation research. I would also like to thank Dr. Roy Stein, John Dettmers and Joe Mion for making constructive comments on two of my manuscripts. Intense interactions, arguments and discussions with Neng Yu, Sharook P. Madon, and Xavier T. Lazzaro have improved the quality of my research as well as my understanding of research in ecology, aquaculture and fisheries. Many thanks to Jim Stoeckel, Donald Stoeckel, Lisa Jackson, Darcy Uetrecht, Molly Giere, Lisa DePinto, and Mike Grove who were actively involved in field sampling and laboratory analysis. Thanks are due to Pat Keys at Senecaville Fish Hatchery, Jim Stafford, Robert Hesterman, Patrick Howard, and Daryl Rinker at the Hebron State Fish Hatchery, and Dick Chittum and Morton Pugh at the St. Mary's Fish Hatchery, who provided help and access to the experimental ponds. v This research was funded by Federal Aid in Sport Fish Restoration Project F-57-R and administered through the Ohio Division of wildlife. Funding was also provided via the Osburn Fellowship through the Graduate School, and the Department of Zoology, The Ohio State University. Thanks are due to many friends, colleagues and faculties at The Ohio State University who provided me an excellent learning environment. Most of all, I want to express my appreciation to my wife, Ranming, and my daughter, Stephanie. Their day-to-day understanding, encouragement, patience, and sacrifices have been a critical link to the success of this academic enterprise. VITA November 21, 1960................. Born - Hebei, People's Republic of China 1982.............................. B.Sc. Dalian Fisheries College Dalian, Liaoning, P. R. China 1982-1986......................... Teaching Assistant Dalian Fisheries College Dalian, Liaoning, P. R. China 1986—1988*•••••••••••••••••••••••*• M.S. Research and Teaching Assistant Department of Zoology The University of Oklahoma Norman, Oklahoma, USA 1988-present...................... Research and Teaching Associate Department of Zoology The Ohio State University Columbus, Ohio, USA PUBLICATIONS Qin, J., and D. A. Culver. 1993. Effect of young-of-the-year walleye (Percidae: Stizostedion vitreum) on plankton dynamics and water quality in ponds. Hydrobiologia (in press). Qin, J., D. A. Culver, and N. Yu. 1993. Comparative growth of larval walleye and saugeye, and their impact on zooplankton in experimental ponds. Progressive Fish-Culturist (in press). Culver, D. A., S. P. Madon, and J. Qin. 1993. Percid pond production techniques: Timing, enrichment, and stocking density manipulation. Journal of Applied Aquaculture 3: 9-31. Qin, J., and D. A. Culver 1992. Survival and growth of larval walleye, Stizostedion vitreum. and trophic dynamics in fertilized ponds. Aquaculture 108: 257-276. Qin, J., and S. T. Threlkeld, 1990. Experimental comparison on the effects of benthivorous and planktivorous fish on plankton community structure. Archiv fur Hydrobiologie 119: 121-141. vii He, Z, J. Qin, J. Wang, H. Wang, Z. Wang, and X. Xia. 1989. Studies on the saline and hypersaline zooplankton from Jinnan and Yinchuan regions. Acta Hydrobiologie Sinica 13: 24-37. He, Z., J. Qin, Y. Wang. 1988. The discovery of Moina monaolica Daday and its distribution in China. Journal of Dalian Fisheries College 2: 9-13. Qin, J., and C. Shen, Z. Wang, D. Yu, and J. Wang. 1986. The basic investigations on the fishery biology of Zhaling Lake and Eling Lake. Journal of Dalian Fisheries College 1: 20-27. He, Z., J. Qin, L. Yan, Y. Liu, Y. Han, and Z. Shi. 1985. A study of the biology and culture of Moina monaolica. Proceeding of a Symposium on Fish and Shrimp food in China. 188-193. Qin, J. 1984. A study on water quality of high-yield fish ponds in Haerbin area, Part II: Plankton. Journal of Dalian Fisheries College 1: 15-26. Qin, J., Z. Wang, M. Cai, and J. Wang. 1983. A study on the chemistry, biology and fisheries of Lake Keluke, China. Fisheries Science 4:17-21. Wang, J., M. Cai, J. Qin, J. Wang, and D. Yu. 1982. A Primary investigation of fisheries biology of Longyiangxia Reservoir before the establishment of the dam. Reservoir Fisheries 3: 2-11. FIELDS OF STUDY Major Field: Zoology Research Area: Aquatic Ecology and Fisheries
Load more

Recommended publications
  • Fish Biomass in Tropical Estuaries: Substantial Variation in Food Web Structure, Sources of Nutrition and Ecosystem-Supporting Processes
    Estuaries and Coasts DOI 10.1007/s12237-016-0159-0 Fish Biomass in Tropical Estuaries: Substantial Variation in Food Web Structure, Sources of Nutrition and Ecosystem-Supporting Processes Marcus Sheaves1,2 & Ronald Baker1,2 & Kátya G. Abrantes1 & Rod M. Connolly3 Received: 22 January 2016 /Revised: 1 June 2016 /Accepted: 27 August 2016 # Coastal and Estuarine Research Federation 2016 Abstract Quantification of key pathways sustaining ecosys- sources of nutrition and probably unequal flow of productivity tem function is critical for underpinning informed decisions into higher levels of the food web in different parts of the on development approvals, zoning and offsets, ecosystem res- estuary. In turn, this suggests substantial qualitative and quan- toration and for meaningful environmental assessments and titative differences in ecosystem-supporting processes in dif- monitoring. To develop a more quantitative understanding of ferent estuary reaches. the importance and variation in food webs and nutrient flows in tropical estuaries, we investigated the spatio-temporal dis- Keywords Mangrove . Nekton . Penaeid . Spatial tribution of biomass of fish across 28 mangrove-lined estuar- prioritisation . Restoration . Offset ies in tropical Australia. We evaluated the extent to which nekton biomass in tropical estuaries responded to spatial and temporal factors and to trophic identity. Biomass was domi- Introduction nated by two trophic groups, planktivores and macrobenthos feeders. Contributions by other trophic groups, such as Although their high productivity and nursery-ground values detritivores and microbenthos feeders, were more variable. make estuaries and their associated wetlands among the most Total biomass and the biomass of all major trophic groups valuable ecosystems on the planet (Choi and Wang 2004; were concentrated in downstream reaches of estuaries.
    [Show full text]
  • A Review of Planktivorous Fishes: Their Evolution, Feeding Behaviours, Selectivities, and Impacts
    Hydrobiologia 146: 97-167 (1987) 97 0 Dr W. Junk Publishers, Dordrecht - Printed in the Netherlands A review of planktivorous fishes: Their evolution, feeding behaviours, selectivities, and impacts I Xavier Lazzaro ORSTOM (Institut Français de Recherche Scientifique pour le Développement eri Coopération), 213, rue Lu Fayette, 75480 Paris Cedex IO, France Present address: Laboratorio de Limrzologia, Centro de Recursos Hidricob e Ecologia Aplicada, Departamento de Hidraulica e Sarzeamento, Universidade de São Paulo, AV,DI: Carlos Botelho, 1465, São Carlos, Sï? 13560, Brazil t’ Mail address: CI? 337, São Carlos, SI? 13560, Brazil Keywords: planktivorous fish, feeding behaviours, feeding selectivities, electivity indices, fish-plankton interactions, predator-prey models Mots clés: poissons planctophages, comportements alimentaires, sélectivités alimentaires, indices d’électivité, interactions poissons-pltpcton, modèles prédateurs-proies I Résumé La vision classique des limnologistes fut de considérer les interactions cntre les composants des écosystè- mes lacustres comme un flux d’influence unidirectionnel des sels nutritifs vers le phytoplancton, le zoo- plancton, et finalement les poissons, par l’intermédiaire de processus de contrôle successivement physiqucs, chimiques, puis biologiques (StraSkraba, 1967). L‘effet exercé par les poissons plaiictophages sur les commu- nautés zoo- et phytoplanctoniques ne fut reconnu qu’à partir des travaux de HrbáEek et al. (1961), HrbAEek (1962), Brooks & Dodson (1965), et StraSkraba (1965). Ces auteurs montrèrent (1) que dans les étangs et lacs en présence de poissons planctophages prédateurs visuels. les conimuiiautés‘zooplanctoniques étaient com- posées d’espèces de plus petites tailles que celles présentes dans les milieux dépourvus de planctophages et, (2) que les communautés zooplanctoniques résultantes, composées d’espèces de petites tailles, influençaient les communautés phytoplanctoniques.
    [Show full text]
  • Cascading Effects of Predator Richness
    REVIEWS REVIEWS REVIEWS Cascading effects of predator richness John F Bruno1* and Bradley J Cardinale2 Biologists have long known that predators play a key role in structuring ecological communities, but recent research suggests that predator richness – the number of genotypes, species, and functional groups that com- prise predator assemblages – can also have cascading effects on communities and ecosystem properties. Changes in predator richness, including the decreases resulting from extinctions and the increases resulting from exotic invasions, can alter the composition, diversity, and population dynamics of lower trophic levels. However, the magnitude and direction of these effects are highly variable and depend on environmental con- text and natural history, and so are difficult to predict. This is because species at higher trophic levels exhibit many indirect, non-additive, and behavioral interactions. The next steps in predator biodiversity research will be to increase experimental realism and to incorporate current knowledge about the functional role of preda- tor richness into ecosystem management. Front Ecol Environ 2008; 6, doi:10.1890/070136 e know that predators play a vital role in maintain- the effects of changing biological richness at higher Wing the structure and stability of communities and trophic levels, and BEF research is rapidly expanding into that their removal can have a variety of cascading, indi- a more realistic, multi-trophic context (Duffy et al. 2007). rect effects (Terborgh et al. 2001; Duffy 2003; Figure 1). Here, we review the emerging field of predator biodi- But how important is predator richness? Are the numbers versity research, as well as the underlying mechanisms of predator genotypes, species, and functional groups eco- through which predator richness can affect lower trophic logically important properties of predator assemblages? levels and ecosystem properties.
    [Show full text]
  • Identifying and Quantifying Environmental Thresholds for Ecological Shifts in a Large Semi- Regulated River
    Journal of Freshwater Ecology ISSN: 0270-5060 (Print) 2156-6941 (Online) Journal homepage: http://www.tandfonline.com/loi/tjfe20 Identifying and quantifying environmental thresholds for ecological shifts in a large semi- regulated river Shawn M. Giblin To cite this article: Shawn M. Giblin (2017) Identifying and quantifying environmental thresholds for ecological shifts in a large semi-regulated river, Journal of Freshwater Ecology, 32:1, 433-453, DOI: 10.1080/02705060.2017.1319431 To link to this article: http://dx.doi.org/10.1080/02705060.2017.1319431 © 2017 The Author(s). Published by Informa UK Limited, trading as Taylor & Francis Group Published online: 19 May 2017. Submit your article to this journal Article views: 5 View related articles View Crossmark data Full Terms & Conditions of access and use can be found at http://www.tandfonline.com/action/journalInformation?journalCode=tjfe20 Download by: [Wisconsin Dept of Natural Resources] Date: 23 May 2017, At: 09:02 JOURNAL OF FRESHWATER ECOLOGY, 2017 VOL. 32, NO. 1, 433–453 https://doi.org/10.1080/02705060.2017.1319431 Identifying and quantifying environmental thresholds for ecological shifts in a large semi-regulated river Shawn M. Giblin Wisconsin Department of Natural Resources, La Crosse, Wisconsin, USA ABSTRACT ARTICLE HISTORY Ecological shifts, between a clear macrophyte-dominated state and a Received 23 January 2017 turbid state dominated by phytoplankton and high inorganic suspended Accepted 6 April 2017 solids, have been well described in shallow lake ecosystems. While few KEYWORDS documented examples exist in rivers, models predict regime shifts, Aquatic macrophytes; especially in regulated rivers with high water retention time.
    [Show full text]
  • Evidence for Ecosystem-Level Trophic Cascade Effects Involving Gulf Menhaden (Brevoortia Patronus) Triggered by the Deepwater Horizon Blowout
    Journal of Marine Science and Engineering Article Evidence for Ecosystem-Level Trophic Cascade Effects Involving Gulf Menhaden (Brevoortia patronus) Triggered by the Deepwater Horizon Blowout Jeffrey W. Short 1,*, Christine M. Voss 2, Maria L. Vozzo 2,3 , Vincent Guillory 4, Harold J. Geiger 5, James C. Haney 6 and Charles H. Peterson 2 1 JWS Consulting LLC, 19315 Glacier Highway, Juneau, AK 99801, USA 2 Institute of Marine Sciences, University of North Carolina at Chapel Hill, 3431 Arendell Street, Morehead City, NC 28557, USA; [email protected] (C.M.V.); [email protected] (M.L.V.); [email protected] (C.H.P.) 3 Sydney Institute of Marine Science, Mosman, NSW 2088, Australia 4 Independent Researcher, 296 Levillage Drive, Larose, LA 70373, USA; [email protected] 5 St. Hubert Research Group, 222 Seward, Suite 205, Juneau, AK 99801, USA; [email protected] 6 Terra Mar Applied Sciences LLC, 123 W. Nye Lane, Suite 129, Carson City, NV 89706, USA; [email protected] * Correspondence: [email protected]; Tel.: +1-907-209-3321 Abstract: Unprecedented recruitment of Gulf menhaden (Brevoortia patronus) followed the 2010 Deepwater Horizon blowout (DWH). The foregone consumption of Gulf menhaden, after their many predator species were killed by oiling, increased competition among menhaden for food, resulting in poor physiological conditions and low lipid content during 2011 and 2012. Menhaden sampled Citation: Short, J.W.; Voss, C.M.; for length and weight measurements, beginning in 2011, exhibited the poorest condition around Vozzo, M.L.; Guillory, V.; Geiger, H.J.; Barataria Bay, west of the Mississippi River, where recruitment of the 2010 year class was highest.
    [Show full text]
  • Why Pelagic Planktivores Should Be Unselective Feeders
    J. theor. Biol. (1995) 173, 41-50 Why Pelagic Planktivores should be Unselective Feeders JARL GISKEt AND ANNE GRO VEA SALVANES University of Bergen, Department of Fisheries and Marine Biology, Hoyteknologisenteret, N-5020 Bergen and tlnstitute of Marine Research, Boks 1870 Nordnes, N-5024 Bergen, Norway (Received on 29 January 1994, Accepted in revised form on 18 July 1994) Diet width theory is a branch of optimal foraging theory, used to predict which fractions of the potential food encountered should be pursued. For pelagic fish, it is generally assumed that light is the dominant stimulus for both prey encounter rate and mortality risk. In order to achieve encounter rates allowing selective feeding, the pelagic predator exposes itself to enhanced predation risk for a prolonged time. The gain in growth obtained by diet selection may seldom outweigh the fitness cost of increased mortality risk. More generally, pelagic feeders will have a higher reproductive rate by searching the depth where feeding will be encounter-limited, and hence be opportunistic feeders. Literature reports of pelagic diet selection either fail to distinguish between the catchability of the prey in a gear and the encounter rate with its predator or neglects the vertical structure in pelagic prey distribution that may give differences in diets for unselective predators operating at different depths. The principal differences between the pelagic habitat and habitats where diet selection will be expected will include one or both of the following: (i) the continuous and steep local (i.e. vertical) gradients in mortality risk and (ii) the lack of local shelter where a newly ingested meal may safely be digested.
    [Show full text]
  • Interaction Between Top-Down and Bottom-Up Control in Marine Food Webs
    Interaction between top-down and bottom-up control in marine food webs Christopher Philip Lynama, Marcos Llopeb,c, Christian Möllmannd, Pierre Helaouëte, Georgia Anne Bayliss-Brownf, and Nils C. Stensethc,g,h,1 aCentre for Environment, Fisheries and Aquaculture Science, Lowestoft Laboratory, Lowestoft, Suffolk NR33 0HT, United Kingdom; bInstituto Español de Oceanografía, Centro Oceanográfico de Cádiz, E-11006 Cádiz, Andalusia, Spain; cCentre for Ecological and Evolutionary Synthesis, Department of Biosciences, University of Oslo, NO-0316 Oslo, Norway; dInstitute of Hydrobiology and Fisheries Sciences, University of Hamburg, 22767 Hamburg, Germany; eSir Alister Hardy Foundation for Ocean Science, The Laboratory, Citadel Hill, Plymouth PL1 2PB, United Kingdom; fAquaTT, Dublin 8, Ireland; gFlødevigen Marine Research Station, Institute of Marine Research, NO-4817 His, Norway; and hCentre for Coastal Research, University of Agder, 4604 Kristiansand, Norway Contributed by Nils Chr. Stenseth, December 28, 2016 (sent for review December 7, 2016; reviewed by Lorenzo Ciannelli, Mark Dickey-Collas, and Eva Elizabeth Plagányi) Climate change and resource exploitation have been shown to from the bottom-up through climatic (temperature-related) in- modify the importance of bottom-up and top-down forces in fluences on plankton, planktivorous fish, and the pelagic stages ecosystems. However, the resulting pattern of trophic control in of demersal fish (11–13). Some studies, however, have suggested complex food webs is an emergent property of the system and that top-down effects, such as predation by sprat on zooplankton, thus unintuitive. We develop a statistical nondeterministic model, are equally important in what is termed a “wasp-waist” system capable of modeling complex patterns of trophic control for the (14).
    [Show full text]
  • Trophic Structure of Reef Fishes and Relationship of Corallivore Fishes with Hard Coral in Kepulauan Seribu, Jakarta
    IOP Conference Series: Earth and Environmental Science PAPER • OPEN ACCESS Trophic structure of reef fishes and relationship of corallivore fishes with hard coral in Kepulauan Seribu, Jakarta To cite this article: B Prabowo et al 2019 IOP Conf. Ser.: Earth Environ. Sci. 278 012059 View the article online for updates and enhancements. This content was downloaded from IP address 170.106.35.76 on 24/09/2021 at 21:15 The 3rd EIW IOP Publishing IOP Conf. Series: Earth and Environmental Science 278 (2019) 012059 doi:10.1088/1755-1315/278/1/012059 Trophic structure of reef fishes and relationship of corallivore fishes with hard coral in Kepulauan Seribu, Jakarta B Prabowo1,2*, K Fahlevy1,2,3, N F D Putra1,2, M Rizqydiani1,2, B M K Rahman1,2, A Habibie1,2, B Subhan1,3 and H Madduppa1,3 1Department of Marine Science and Technology, Bogor Agricultural University, Bogor, Indonesia 2Marine Science and Technology Student Organization (HIMITEKA-IPB), Bogor Agricultural University, Bogor, Indonesia 3Fisheries Diving Club, Bogor Agricultural University, Bogor, Indonesia *E-mail: [email protected] Abstract. Corallivore became one of the biotic components that relate with coral coverage. The objective of this study was to determine the trophic structure of reef fishes, as well as the relationship between corallivores and hard corals in the northern part of Kepulauan Seribu. Reef fish species and benthic coverage were assessed using underwater visual census (UVCs) and Line Intercept Transect (LIT). The results showed that there were 120 reef fish species belonging to 7 trophic groups and 19 families. Pomacentridae and Labridae are the most abundant fish families.
    [Show full text]
  • Marine Ecology Progress Series 418:1
    Vol. 418: 1–15, 2010 MARINE ECOLOGY PROGRESS SERIES Published November 18 doi: 10.3354/meps08814 Mar Ecol Prog Ser OPENPEN ACCESSCCESS FEATURE ARTICLE Characterization of forage fish and invertebrates in the Northwestern Hawaiian Islands using fatty acid signatures: species and ecological groups Jacinthe Piché1,*, Sara J. Iverson1, Frank A. Parrish2, Robert Dollar2 1Department of Biology, Dalhousie University, Halifax, Nova Scotia B3H 4J1, Canada 2Pacific Island Fisheries Science Center, NOAA, 2570 Dole Street, Honolulu, Hawaii 96822, USA ABSTRACT: The fat content and fatty acid (FA) composition of 100 species of fishes and inverte- brates (n = 2190) that are potential key forage spe- cies of the critically endangered monk seal in the Northwestern Hawaiian Islands were determined. For analysis, these species were classified into 47 groups based on a range of shared factors such as taxonomy, diet, ecological subsystem, habitat, and commercial interest. Hierarchical cluster and dis- criminant analyses of the 47 groups using 15 major FAs revealed that groups of species with similar FA composition associated into 5 functional groups: herbivores, planktivores, carnivores (which also in- cluded piscivores and omnivores), crustaceans, and cephalopods. Discriminant analyses performed on the 4 main functional groups separately revealed Reef fish on a bank summit of the Northwestern Hawaiian that herbivores, planktivores, and crustaceans could Islands be readily differentiated on the basis of their FA Image: Raymond Boland signatures, with 97.7, 87.2, and 81.5% of individuals correctly classified, respectively. Classification suc- cess was lower within the carnivores (75.5%), which indicates that some groups of carnivorous species KEY WORDS: Fatty acids · Fishes · Invertebrates · Diet likely exhibit highly similar diets and/or ecology, guild · Trophic relationships · Ecological subsystems · rendering their FA signatures harder to differenti- Hawaiian archipelago · Northwestern Hawaiian Islands ate.
    [Show full text]
  • Coral Reef Fishes Exhibit Strong Responses to a Habitat Boundary
    The following supplement accompanies the article Life on the edge: Coral reef fishes exhibit strong responses to a habitat boundary Katie Sambrook*, Geoffrey P. Jones, Mary C. Bonin *Corresponding author: [email protected] Marine Ecology Progress Series 561: 203–215 (2016) Table S1. Feeding guilds for the 51 fish species from 13 families included in surveys. Species were assigned to one of five feeding guilds based on published information about diet. Carnivores were defined as species that primarily consume macro invertebrates (e.g. crustaceans, echinoderms, gastropods) and/or fish. Omnivores were classified as species that consume both plant and animal material, and the category herbivore included species that primarily eat organic plant matter and/or detritus. Planktivores include species documented feeding primarily on plankton in the water column Family Species Feeding guild Reference Acanthuridae Choat et al. 2002, Wilson et al. 2008, Ctenochaetus striatus Herbivore Green & Bellwood 2009 Zebrasoma scopas Herbivore Choat et al. 2002 Balistidae Balistapus undulatus Omnivore Wilson et al. 2008, Pratchett et al. 2011 Chaetodontidae Berumen et al. 2005, Pratchett 2007, Chaetodon baronessa Corallivore Wilson et al. 2008 Chaetodon kleinii Omnivore Pratchett 2005, Pratchett et al. 2008 Chaetodon lunulatus Corallivore Pratchett 2005, Wilson et al. 2008 Chaetodon vagabundus Omnivore Anderson et al. 1981, Wilson et al. 2008 Wilson et al. 2008, Nagelkerken et al. Heniochus varius Carnivore 2009 Cirrhitidae Paracirrhites forsteri Carnivore Leray et al. 2012 Labridae Elliott & Bellwood 2003, Wilson et al. Halichoeres hortulanus Carnivore 2008, Berkström et al. 2012 Halichoeres melanurus Carnivore Pratchett et al. 2011, Berkström et al. 2012 Labroides spp.
    [Show full text]
  • Marine Ecosystems and Fisheries
    MARINE ECOSYSTEMS AND FISHERIES Balancing Ecosystem Sustainability and the Socio-Economics of Fisheries This Report Is Part Of The Ocean On The Edge Series Produced By The Aquarium Of The Pacific As Products Of Its National Conference—Ocean On The Edge: Top Ocean Issues, May 2009 2 MARINE ECOSYSTEMS AND FISHERIES Ocean on the Edge: Top Ocean Issues Making Ocean Issues Come Alive for the Public The conference brought together leading marine scientists and engineers, policy-makers, film-makers, exhibit designers, informal science educators, journalists and communicators to develop a portfolio of models for communicating major ocean issues to the public. This report is one of a series of reports from that conference. The reports include: Coastal Hazards, Marine Ecosystems and Fisheries, Pollution in the Ocean, and Critical Condition: Ocean Health and Human Health. There is also a series of briefer reports on film-making, kiosk messaging design, and communicating science to the public. All reports are available at www.aquariumofpacific.org MARINE ECOSYSTEMS AND FISHERIES 3 4 MARINE ECOSYSTEMS AND FISHERIES Acknowledgements Support for the “Ocean on the Edge Confer- and Robert Stickney, PhD. Participants fluctu- ence: Top Ocean Issues” was provided by ated during the various workshop sessions. NOAA, the National Science Foundation, Corinne Monroe and Alexi Holford were Southern California Edison, SAVOR, the Long the rapporteurs. Contributors to this report Beach Convention Center, and the Aquarium who provided editorial comments were Mark of the Pacific. Helvey and Craig Heberer of NOAA and members of his staff. This report was facilitat- We are grateful to the Conference’s National ed by Corinne Monroe with assistance from Advisory Panel that provided valuable guid- Erica Noriega.
    [Show full text]
  • Impact of Intraguild Predation and Stage Structure on Simple Communities Along a Productivity Gradient Mylius, Sido D.; Klumpers, K; De Roos, AM; Persson, L
    University of Groningen Impact of intraguild predation and stage structure on simple communities along a productivity gradient Mylius, Sido D.; Klumpers, K; de Roos, AM; Persson, L Published in: American Naturalist DOI: 10.1086/321321 IMPORTANT NOTE: You are advised to consult the publisher's version (publisher's PDF) if you wish to cite from it. Please check the document version below. Document Version Publisher's PDF, also known as Version of record Publication date: 2001 Link to publication in University of Groningen/UMCG research database Citation for published version (APA): Mylius, S. D., Klumpers, K., de Roos, AM., & Persson, L. (2001). Impact of intraguild predation and stage structure on simple communities along a productivity gradient. American Naturalist, 158(3), 259-276. https://doi.org/10.1086/321321 Copyright Other than for strictly personal use, it is not permitted to download or to forward/distribute the text or part of it without the consent of the author(s) and/or copyright holder(s), unless the work is under an open content license (like Creative Commons). The publication may also be distributed here under the terms of Article 25fa of the Dutch Copyright Act, indicated by the “Taverne” license. More information can be found on the University of Groningen website: https://www.rug.nl/library/open-access/self-archiving-pure/taverne- amendment. Take-down policy If you believe that this document breaches copyright please contact us providing details, and we will remove access to the work immediately and investigate your claim. Downloaded from the University of Groningen/UMCG research database (Pure): http://www.rug.nl/research/portal.
    [Show full text]