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Increasing the salience of marine live–dead data in the Anthropocene

Published online by Cambridge University Press:  22 May 2020

Jansen A. Smith
Affiliation:
Paleontological Research Institution, Ithaca, New York14850, U.S.A. E-mail: [email protected], [email protected]
Gregory P. Dietl
Affiliation:
Paleontological Research Institution, Ithaca, New York14850, U.S.A.; Department of Earth and Atmospheric Sciences, Cornell University, Ithaca, New York14853, U.S.A. E-mail: [email protected]
Stephen R. Durham
Affiliation:
Paleontological Research Institution, Ithaca, New York14850, U.S.A. E-mail: [email protected], [email protected]

Abstract

As the climate changes and ecosystems shift toward novel combinations of species, the methods and metrics of conservation science are becoming less species-centric. To meet this growing need, marine conservation paleobiologists stand to benefit from the addition of new, taxon-free benthic indices to the live–dead analysis tool kit. These indices, which were developed to provide actionable, policy-specific data, can be applied to the readily preservable component of benthic communities (e.g., mollusks) to assess the ecological quality status of the entire community. Because these indices are taxon-free, they remain applicable even as the climate changes and novel communities develop—making them a potentially valuable complement to traditionally applied approaches for live–dead analysis, which tend to focus on maintaining specific combinations of species under relatively stable environmental conditions. Integrating geohistorical data with these established indices has potential to increase the salience of the live–dead approach in the eyes of resource managers and other stakeholders.

Type
On The Record
Copyright
Copyright © 2020 The Paleontological Society. All rights reserved

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References

Literature Cited

Adakole, J. A., and Anunne, P. A.. 2003. Benthic macroinvertebrates as indicators of environmental quality of an urban stream, Zaria, Northern Nigeria. Journal of Aquatic Sciences 18:8592.Google Scholar
Albano, P. G., Filippova, N., Steger, J., Kaufman, D. S., Tomašových, A., Stachowitsch, M., and Zuschin, M.. 2015. Oil platforms in the Persian (Arabian) Gulf: living and death assemblages reveal no effects. Continental Shelf Research 121:2134.CrossRefGoogle Scholar
Arlettaz, R., Schaub, M., Fournier, J., Reichlin, T. S., Sierro, A., Watson, J. E. M., and Braunisch, V.. 2010. From publications to public actions: when conservation biologists bridge the gap between research and implementation. BioScience 60:835842.CrossRefGoogle Scholar
Aronson, R. B., Thatje, S., Clarke, A., Peck, L. S., Blake, D. B., Wilga, C. D., and Seibel, B. A.. 2007. Climate change and invasibility of the Antarctic benthos. Annual Review of Ecology, Evolution, and Systematics 38:129154.CrossRefGoogle Scholar
Barnosky, A. D., Hadly, E. A., Gonzalez, P., Head, J., Polly, P. D., Lawing, A. M., Eronen, J. T., Ackerly, D. D., Alex, K., Biber, E., Blois, J., Brashares, J., Ceballos, G., Davis, E., Dietl, G. P., Dirzo, R., Doremus, H., Fortelius, M., Greene, H. W., Hellmann, J., Hickler, T., Jackson, S. T., Kemp, M., Koch, P. L., Kremen, C., Lindsey, E. L., Looy, C., Marshall, C. R., Mendenhall, C., Mulch, A., Mychajliw, A. M., Nowak, C., Ramakrishnan, U., Schnitzler, J., Shrestha, K. D., Solari, K., Stegner, L., Stegner, M. A., Stenseth, N. C., Wake, M. H., and Zhang, Z.. 2017. Merging paleobiology with conservation biology to guide the future of terrestrial ecosystems. Science 355:eaah4787.CrossRefGoogle ScholarPubMed
Bellinger, B. J., Cocquyt, C., and O'Reilly, C. M.. 2006. Benthic diatoms as indicators of eutrophication in tropical streams. Hydrobiologia 573:7587.CrossRefGoogle Scholar
Bello, F., de, Lavorel, S., Díaz, S., Harrington, R., Cornelissen, J. H., Bardgett, R. D., Berg, M. P., Cipriotti, P., Feld, C. K., and Hering, D.. 2010. Towards an assessment of multiple ecosystem processes and services via functional traits. Biodiversity and Conservation 19:28732893.CrossRefGoogle Scholar
Bennett, E. M., Cramer, W., Begossi, A., Cundill, G., Díaz, S., Egoh, B. N., Geijzendorffer, I. R., Krug, C. B., Lavorel, S., Lazos, E., Lebel, L., Martín-López, B., Meyfroidt, P., Mooney, H. A., Nel, J. L., Pascual, U., Payet, K., Harguindeguy, N. P., Peterson, G. D., Prieur-Richard, A.-H., Reyers, B., Roebeling, P., Seppelt, R., Solan, M., Tschakert, P., Tscharntke, T., Turner, B., Verburg, P. H., Viglizzo, E. F., White, P. C., and Woodward, G.. 2015. Linking biodiversity, ecosystem services, and human well-being: three challenges for designing research for sustainability. Current Opinion in Environmental Sustainability 14:7685.CrossRefGoogle Scholar
Borja, Á., Franco, J., and Perez, V.. 2000. A marine biotic index to establish the ecological quality of soft-bottom benthos within European estuarine and coastal environments. Marine Pollution Bulletin 40:11001114.CrossRefGoogle Scholar
Borja, Á., Franco, J., Valencia, V., Bald, J., Muxika, I., Jesús Belzunce, M., and Solaun, O.. 2004. Implementation of the European water framework directive from the Basque country (northern Spain): a methodological approach. Marine Pollution Bulletin 48:209218.CrossRefGoogle ScholarPubMed
Borja, Á., Dauer, D. M., and Grémare, A.. 2012. The importance of setting targets and reference conditions in assessing marine ecosystem quality. Ecological Indicators 12:17.CrossRefGoogle Scholar
Borja, Á., Elliott, M., Andersen, J. H., Cardoso, A. C., Carstensen, J., Ferreira, J. G., Heiskanen, A.-S., Marques, J. C., Neto, J. M., Teixeira, H., Uusitalo, L., Uyarra, M. C., and Zampoukas, N.. 2013. Good environmental status of marine ecosystems: what is it and how do we know when we have attained it? Marine Pollution Bulletin 76:1627.CrossRefGoogle Scholar
Borja, Á., Marín, S. L., Muxika, I., Pino, L., and Rodríguez, J. G.. 2015. Is there a possibility of ranking benthic quality assessment indices to select the most responsive to different human pressures? Marine Pollution Bulletin 97:8594.CrossRefGoogle Scholar
Bremner, J., Frid, C. L. J., and Rogers, S. I.. 2003. Assessing marine ecosystem health: the long-term effects of fishing on functional biodiversity in North Sea benthos. Aquatic Ecosystem Health and Management 6:131137.CrossRefGoogle Scholar
Brodie, J. F., Redford, K. H., and Doak, D. F.. 2018. Ecological function analysis: incorporating species roles into conservation. Trends in Ecology and Evolution 33:840850.CrossRefGoogle ScholarPubMed
Camacho, A., Doremus, H., MacLachlan, J. S., and Minteer, B. A.. 2010. Reassessing conservation goals in a changing climate. Issues in Science and Technology 26.Google Scholar
Casey, M. M., Dietl, G. P., Post, D. M., and Briggs, D. E. G.. 2014. The impact of eutrophication and commercial fishing on molluscan communities in Long Island Sound, USA. Biological Conservation 170:137144.CrossRefGoogle Scholar
Cash, D. W., Clark, W. C., Alcock, F., Dickson, N. M., Eckley, N., Guston, D. H., Jäger, J., and Mitchell, R. B.. 2003. Knowledge systems for sustainable development. Proceedings of the National Academy of Sciences USA 100:80868091.CrossRefGoogle ScholarPubMed
Caswell, B. A., and Frid, C. L. J.. 2013. Learning from the past: functional ecology of marine benthos during eight million years of aperiodic hypoxia, lessons from the Late Jurassic. Oikos 122:16871699.CrossRefGoogle Scholar
Caswell, B. A., Frid, C. L., and Borja, Á.. 2019. An ecological status indicator for all time: are AMBI and M-AMBI effective indicators of change in deep time? Marine Pollution Bulletin 140:472484.CrossRefGoogle ScholarPubMed
Chao, A., Chazdon, R. L., Colwell, R. K., and Shen, T.-J.. 2005. A new statistical approach for assessing similarity of species composition with incidence and abundance data: a new statistical approach for assessing similarity. Ecology Letters 8:148159.CrossRefGoogle Scholar
Collier, M. J., and Devitt, C.. 2016. Novel ecosystems: challenges and opportunities for the Anthropocene. Anthropocene Review 3:231242.CrossRefGoogle Scholar
Corlett, R. T. 2015. The Anthropocene concept in ecology and conservation. Trends in Ecology and Evolution 30:3641.CrossRefGoogle ScholarPubMed
Cronin, K. E., Dietl, G. P., Kelley, P. H., and Edie, S. M.. 2018. Life span bias explains live–dead discordance in abundance of two common bivalves. Paleobiology 44:783797.CrossRefGoogle Scholar
Davis, F. M. 1923. Quantitative studies on the fauna of the sea bottom: No. 1. Preliminary investigation of the Dogger Bank. Ministry of Agricultural and Fisheries, Fishery Investigations, London.Google Scholar
Dietl, G. P., and Flessa, K. W.. 2011. Conservation paleobiology: putting the dead to work. Trends in Ecology and Evolution 26:3037.CrossRefGoogle ScholarPubMed
Dietl, G. P., and Flessa, K. W.. 2017. Conservation paleobiology: science and practice. University of Chicago Press, Chicago.CrossRefGoogle Scholar
Dietl, G. P., and Smith, J. A.. 2017. Live-dead analysis reveals long-term response of the estuarine bivalve community to water diversions along the Colorado River. Ecological Engineering 106:749756.CrossRefGoogle Scholar
Dietl, G. P., Kidwell, S. M., Brenner, M., Burney, D. A., Flessa, K. W., Jackson, S. T., and Koch, P. L.. 2015. Conservation paleobiology: leveraging knowledge of the past to inform conservation and restoration. Annual Review of Earth and Planetary Sciences 43:79103.CrossRefGoogle Scholar
Dietl, G. P., Durham, S. R., Smith, J. A., and Tweitmann, A.. 2016. Mollusk assemblages as records of past and present ecological status. Frontiers in Marine Science 3:ar169.CrossRefGoogle Scholar
Durham, S. R., and Dietl, G. P.. 2015. Perspectives on geohistorical data among oyster restoration professionals in the United States. Journal of Shellfish Research 34:227239.CrossRefGoogle Scholar
Elliott, M., Borja, Á., McQuatters-Gollop, A., Mazik, K., Birchenough, S., Andersen, J. H., Painting, S., and Peck, M.. 2015. Force majeure: will climate change affect our ability to attain good environmental status for marine biodiversity? Marine Pollution Bulletin 95:727.CrossRefGoogle ScholarPubMed
Eronen, J. T., Polly, P. D., Fred, M., Damuth, J., Frank, D. C., Mosbrugger, V., Scheidegger, C., Stenseth, N. Chr., and Fortelius, M.. 2010. Ecometrics: the traits that bind the past and present together. Integrative Zoology 5:88101.CrossRefGoogle ScholarPubMed
European Commission. 2000. Directive 2000/60/EC of the European Parliament and of the Council of 23 October 2000 establishing a framework for community action in the field of water policy. Official Journal L 327, 22/12/2000 pp. 1–73.Google Scholar
European Commission. 2008. Directive 2008/56/EC of the European Parliament and of the Council establishing a framework for community action in the field of marine environmental policy (Marine Strategy Framework Directive). Official Journal L 164, 25/6/2008, pp. 19–40.Google Scholar
Gillett, D. J., Weisberg, S. B., Grayson, T., Hamilton, A., Hansen, V., Leppo, E. W., Pelletier, M. C., Borja, Á., Cadien, D., Dauer, D., Diaz, R., Dutch, M., Hyland, J. L., Kellogg, M., Larsen, P. F., Levinton, J. S., Llansó, R., Lovell, L. L., Montagna, P. A., Pasko, D., Phillips, C. A., Rakocinski, C., Ranasinghe, J. A., Sanger, D. M., Teixeira, H., Dolah, R. F. V., Velarde, R. G., and Welch, K. I.. 2015. Effect of ecological group classification schemes on performance of the AMBI benthic index in US coastal waters. Ecological Indicators 50:99107.CrossRefGoogle Scholar
Greenstein, B. J., and Pandolfi, J. M.. 2008. Escaping the heat: range shifts of reef coral taxa in coastal Western Australia. Global Change Biology 14:513528.CrossRefGoogle Scholar
Halpern, B. S., Walbridge, S., Selkoe, K. A., Kappel, C. V., Micheli, F., D'Agrosa, C., Bruno, J. F., Casey, K. S., Ebert, C., and Fox, H. E.. 2008. A global map of human impact on marine ecosystems. Science 319:948952.CrossRefGoogle ScholarPubMed
Hess, S., Alve, E., Andersen, T. J., and Joranger, T.. 2020. Defining ecological reference conditions in naturally stressed environments—how difficult is it? Marine Environmental Research 156:ar104885.CrossRefGoogle Scholar
Hevia, V., Martín-López, B., Palomo, S., García-Llorente, M., de Bello, F., and González, J. A.. 2017. Trait-based approaches to analyze links between the drivers of change and ecosystem services: synthesizing existing evidence and future challenges. Ecology and Evolution 7:831844.CrossRefGoogle ScholarPubMed
Hobbs, R. J., Higgs, E., Hall, C. M., Bridgewater, P., Chapin, F. S., Ellis, E. C., Ewel, J. J., Hallett, L. M., Harris, J., Hulvey, K. B., Jackson, S. T., Kennedy, P. L., Kueffer, C., Lach, L., Lantz, T. C., Lugo, A. E., Mascaro, J., Murphy, S. D., Nelson, C. R., Perring, M. P., Richardson, D. M., Seastedt, T. R., Standish, R. J., Starzomski, B. M., Suding, K. N., Tognetti, P. M., Yakob, L., and Yung, L.. 2014. Managing the whole landscape: historical, hybrid, and novel ecosystems. Frontiers in Ecology and the Environment 12:557564.CrossRefGoogle Scholar
Hurlbert, S. H. 1971. The nonconcept of species diversity: a critique and alternative parameters. Ecology 52:577586.CrossRefGoogle Scholar
Jackson, J. B., Kirby, M. X., Berger, W. H., Bjorndal, K. A., Botsford, L. W., Bourque, B. J., Bradbury, R. H., Cooke, R., Erlandson, J., and Estes, J. A.. 2001. Historical overfishing and the recent collapse of coastal ecosystems. Science 293:629637.CrossRefGoogle ScholarPubMed
Johnson, R. G. 1965. Pelecypod death assemblages in Tomales Bay, California. Journal of Paleontology 39:8085.Google Scholar
Kareiva, P., and Marvier, M.. 2012. What Is Conservation Science? BioScience 62:962969.CrossRefGoogle Scholar
Karr, J. R. 1981. Assessment of biotic integrity using fish communities. Fisheries 6:2127.2.0.CO;2>CrossRefGoogle Scholar
Karr, J. R. 1991. Biological integrity: a long-neglected aspect of water resource management. Ecological Applications 1:6684.CrossRefGoogle ScholarPubMed
Kerans, B. L., and Karr, J. R.. 1994. A benthic index of biotic integrity (B-IBI) for rivers of the Tennessee Valley. Ecological Applications 4:768785.CrossRefGoogle Scholar
Kidwell, S. M. 2001. Preservation of species abundance in marine death assemblages. Science 294:10911094.CrossRefGoogle ScholarPubMed
Kidwell, S. M. 2002. Time-averaged molluscan death assemblages: palimpsests of richness, snapshots of abundance. Geology 30:803806.2.0.CO;2>CrossRefGoogle Scholar
Kidwell, S. M. 2007. Discordance between living and death assemblages as evidence for anthropogenic ecological change. Proceedings of the National Academy of Sciences USA 104:1770117706.CrossRefGoogle ScholarPubMed
Kidwell, S. M. 2009. Evaluating human modification of shallow marine ecosystems: mismatch in composition of molluscan living and time-averaged death assemblages. Paleontological Society Papers 15:113139.Google Scholar
Kidwell, S. M. 2013. Time-averaging and fidelity of modern death assemblages: building a taphonomic foundation for conservation palaeobiology. Palaeontology 56:487522.CrossRefGoogle Scholar
Kopf, R. K., Finlayson, C. M., Humphries, P., Sims, N. C., and Hladyz, S.. 2015. Anthropocene baselines: assessing change and managing biodiversity in human-dominated aquatic ecosystems. BioScience 65:798811.CrossRefGoogle Scholar
Korpanty, C. A., and Kelley, P. H.. 2014. Molluscan live–dead agreement in anthropogenically stressed seagrass habitats: siliciclastic versus carbonate environments. Palaeogeography, Palaeoclimatology, Palaeoecology 410:113125.CrossRefGoogle Scholar
Kowalewski, M., Serrano, G. E. A., Flessa, K. W., and Goodfriend, G. A.. 2000. Dead delta's former productivity: two trillion shells at the mouth of the Colorado River. Geology 28:10591062.2.0.CO;2>CrossRefGoogle Scholar
Kröncke, I., and Reiss, H.. 2010. Influence of macrofauna long-term natural variability on benthic indices used in ecological quality assessment. Marine Pollution Bulletin 60:5868.CrossRefGoogle ScholarPubMed
Lawler, J. J., Ackerly, D. D., Albano, C. M., Anderson, M. G., Dobrowski, S. Z., Gill, J. L., Heller, N. E., Pressey, R. L., Sanderson, E. W., and Weiss, S. B.. 2015. The theory behind, and the challenges of, conserving nature's stage in a time of rapid change. Conservation Biology 29:618629.CrossRefGoogle Scholar
Leonard-Pingel, J. S., Kidwell, S. M., Alexander, C. R., and Cadien, D. B.. 2019. Gauging benthic recovery from 20th century pollution on the southern California continental shelf using bivalves from sediment cores. Marine Ecology Progress Series 615:101119.CrossRefGoogle Scholar
Leshno, Y., Edelman-Furstenberg, Y., Mienis, H., and Benjamini, C.. 2015. Molluscan live and dead assemblages in an anthropogenically stressed shallow-shelf: Levantine margin of Israel. Palaeogeography, Palaeoclimatology, Palaeoecology 433:4959.CrossRefGoogle Scholar
Leshno, Y., Benjamini, C., and Edelman-Furstenberg, Y.. 2016. Ecological quality assessment in the Eastern Mediterranean combining live and dead molluscan assemblages. Marine Pollution Bulletin 104:246256.CrossRefGoogle ScholarPubMed
Lockwood, R., and Chastant, L. R.. 2006. Quantifying taphonomic bias of compositional fidelity, species richness, and rank abundance in molluscan death assemblages from the Upper Chesapeake Bay. Palaios 21:376383.CrossRefGoogle Scholar
Louys, J., Wilkinson, D. M., and Bishop, L. C.. 2012. Ecology needs a paleontological perspective. Pp. 2338in Paleontology in ecology and conservation. Springer, Berlin.CrossRefGoogle Scholar
Marris, E. 2011. Rambunctious garden: saving nature in a post-wild world. Bloomsbury, New York.Google Scholar
Martinelli, J. C., Soto, L. P., González, J., and Rivadeneira, M. M.. 2017. Benthic communities under anthropogenic pressure show resilience across the Quaternary. Royal Society Open Science 4:170796.CrossRefGoogle ScholarPubMed
Milly, P. C., Betancourt, J., Falkenmark, M., Hirsch, R. M., Kundzewicz, Z. W., Lettenmaier, D. P., and Stouffer, R. J.. 2008. Stationarity is dead: whither water management? Science 319:573574.CrossRefGoogle ScholarPubMed
Mistri, M., and Munari, C.. 2008. BITS: a SMART indicator for soft-bottom, non-tidal lagoons. Marine Pollution Bulletin 56:580606.CrossRefGoogle Scholar
Morley, J. W., Selden, R. L., Latour, R. J., Frölicher, T. L., Seagraves, R. J., and Pinsky, M. L.. 2018. Projecting shifts in thermal habitat for 686 species on the North American continental shelf. PLoS ONE 13:e0196127.CrossRefGoogle ScholarPubMed
Mouillot, D., Graham, N. A. J., Villéger, S., Mason, N. W. H., and Bellwood, D. R.. 2013. A functional approach reveals community responses to disturbances. Trends in Ecology and Evolution 28:167177.CrossRefGoogle ScholarPubMed
Muxika, I., Borja, Á., and Bald, J.. 2007. Using historical data, expert judgement and multivariate analysis in assessing reference conditions and benthic ecological status, according to the European Water Framework Directive. Marine Pollution Bulletin 55:1629.CrossRefGoogle ScholarPubMed
Naeem, S., Chazdon, R., Duffy, J. E., Prager, C., and Worm, B.. 2016. Biodiversity and human well-being: an essential link for sustainable development. Proceedings of the Royal Society of London B 283:20162091.Google ScholarPubMed
Olszewski, T. D., and Kidwell, S. M.. 2007. The preservational fidelity of evenness in molluscan death assemblages. Paleobiology 33:123.CrossRefGoogle Scholar
Pelletier, M. C., Gillett, D. J., Hamilton, A., Grayson, T., Hansen, V., Leppo, E. W., Weisberg, S. B., and Borja, Á.. 2018. Adaptation and application of multivariate AMBI (M-AMBI) in US coastal waters. Ecological Indicators 89:818827.CrossRefGoogle ScholarPubMed
Phelps, M. P., Seeb, L. W., and Seeb, J. E.. 2019. Transforming ecology and conservation biology through genome editing. Conservation Biology 34:5465.CrossRefGoogle ScholarPubMed
Pinsky, M. L., Worm, B., Fogarty, M. J., Sarmiento, J. L., and Levin, S. A.. 2013. Marine taxa track local climate velocities. Science 341:12391242.CrossRefGoogle ScholarPubMed
Polly, P. D., Eronen, J. T., Fred, M., Dietl, G. P., Mosbrugger, V., Scheidegger, C., Frank, D. C., Damuth, J., Stenseth, N. C., and Fortelius, M.. 2011. History matters: ecometrics and integrative climate change biology. Proceedings of the Royal Society of London B 278:11311140.Google ScholarPubMed
Powell, E. N., Ewing, A. M., and Kuykendall, K. M.. 2020. Ocean quahogs (Arctica islandica) and Atlantic surfclams (Spisula solidissima) on the Mid-Atlantic Bight continental shelf and Georges Bank: the death assemblage as a recorder of climate change and the reorganization of the continental shelf benthos. Palaeogeography, Palaeoclimatology, Palaeoecology 537:ar109205.CrossRefGoogle Scholar
Rick, T. C., and Lockwood, R.. 2013. Integrating paleobiology, archeology, and history to inform biological conservation. Conservation Biology 27:4554.CrossRefGoogle ScholarPubMed
Saupe, E. E., Farnsworth, A., Lunt, D. J., Sagoo, N., Pham, K. V., and Field, D. J.. 2019. Climatic shifts drove major contractions in avian latitudinal distributions throughout the Cenozoic. Proceedings of the National Academy of Sciences USA 116:1289512900.CrossRefGoogle ScholarPubMed
Schaeffer, D. J., Ettinger, W. H., Tucker, W. J., and Kerster, H. W.. 1985. Evaluation of a community-based index using benthic indicator-organisms for classifying stream quality. Journal (Water Pollution Control Federation) 57:167171.Google Scholar
Simboura, N., and Zenetos, A.. 2002. Benthic indicators to use in ecological quality classification of Mediterranean soft bottom marine ecosystem, including a new biotic index. Mediterranean Marine Science 3:77111.CrossRefGoogle Scholar
Smith, J. A., and Dietl, G. P.. 2016. The value of geohistorical data in identifying a recent human-induced range expansion of a predatory gastropod in the Colorado River delta, Mexico. Journal of Biogeography 43:791800.CrossRefGoogle Scholar
Smith, J. A., Durham, S. R., and Dietl, G. P.. 2018. Conceptions of long-term data among marine conservation biologists and what conservation paleobiologists need to know. Pp. 2354in Tyler, C. L. and Schneider, C. L., eds. Marine conservation paleobiology. Springer-Verlag, New York.CrossRefGoogle Scholar
Stein, B. A., Glick, P., Edelson, N., and Staudt, A.. 2014. Climate-smart conservation: putting adaption principles into practice. National Wildlife Federation, Washington D.C.Google Scholar
Sunday, J. M., Bates, A. E., and Dulvy, N. K.. 2012. Thermal tolerance and the global redistribution of animals. Nature Climate Change 2:686690.CrossRefGoogle Scholar
Sutherland, T. F., Levings, C. D., Petersen, S. A., Poon, P., and Piercey, B.. 2007. The use of meiofauna as an indicator of benthic organic enrichment associated with salmonid aquaculture. Marine Pollution Bulletin 54:12491261.CrossRefGoogle ScholarPubMed
Sutherland, W. J., Broad, S., Butchart, S. H. M., Clarke, S. J., Collins, A. M., Dicks, L. V., Doran, H., Esmail, N., Fleishman, E., Frost, N., Gaston, K. J., Gibbons, D. W., Hughes, A. C., Jiang, Z., Kelman, R., LeAnstey, B., le Roux, X., Lickorish, F. A., Monk, K. A., Mortimer, D., Pearce-Higgins, J. W., Peck, L. S., Pettorelli, N., Pretty, J., Seymour, C. L., Spalding, M. D., Wentworth, J., and Ockendon, N.. 2019. A horizon scan of emerging issues for global conservation in 2019. Trends in Ecology and Evolution 34:8394.CrossRefGoogle ScholarPubMed
Tweitmann, A., and Dietl, G. P.. 2018. Live-dead mismatch of molluscan assemblages indicates disturbance from anthropogenic eutrophication in the Barnegat Bay-Little Egg Harbor estuary. Journal of Shellfish Research 37:615625.CrossRefGoogle Scholar
Tyler, C. L., and Schneider, C. L.. 2018. Marine conservation paleobiology, Vol. 47. Springer, Cham, Switzerland.CrossRefGoogle Scholar
Van Hoey, G., Borja, Á., Birchenough, S., Buhl-Mortensen, L., Degraer, S., Fleischer, D., Kerckhof, F., Magni, P., Muxika, I., Reiss, H., Schröder, A., and Zettler, M. L.. 2010. The use of benthic indicators in Europe: from the Water Framework Directive to the Marine Strategy Framework Directive. Marine Pollution Bulletin 60:21872196.CrossRefGoogle ScholarPubMed
Volety, A., Savarese, M., Hoye, B., and Loh, A.. 2009. Landscape pattern: present and past distribution of oysters in South Florida Coastal Complex (Whitewater Bay/Oyster Bay/Shark to Robert's Rivers). Florida Gulf Coast University, Fort Myers.Google Scholar
Warme, J. E. 1969. Live and dead molluscs in a coastal lagoon. Journal of Paleontology 43:141150.Google Scholar
Watson, K. B., Galford, G. L., Sonter, L. J., Koh, I., and Ricketts, T. H.. 2019. Effects of human demand on conservation planning for biodiversity and ecosystem services. Conservation Biology 33:942952.CrossRefGoogle ScholarPubMed
Weber, K., and Zuschin, M.. 2013. Delta-associated molluscan life and death assemblages in the northern Adriatic Sea: implications for paleoecology, regional diversity and conservation. Palaeogeography, Palaeoclimatology, Palaeoecology 370:7791.CrossRefGoogle ScholarPubMed
Wingard, G. L. 2017. Application of paleoecology to ecosystem restoration: a case study from South Florida's estuaries. Pp. 551585in Applications of paleoenvironmental techniques in estuarine studies. Springer, Dordrecht, Netherlands.CrossRefGoogle Scholar
Wingard, G. L., and Lorenz, J. J.. 2014. Integrated conceptual ecological model and habitat indices for the southwest Florida coastal wetlands. Ecological Indicators 44:92107.CrossRefGoogle Scholar
Wolkovich, E. M., Cook, B. I., McLauchlan, K. K., and Davies, T. J.. 2014. Temporal ecology in the Anthropocene. Ecology Letters 17:13651379.CrossRefGoogle ScholarPubMed