Linked disturbance in the temperate forest: Earthworms, deer, and canopy gaps

Reed, Samuel P.; Bronson, Dustin R.; Forrester, Jodi A.; Prudent, Leah M.; Yang, Anna M.; Yantes, Austin M.; Reich, Peter B.; Frelich, Lee E.

Linked disturbance in the temperate forest: Earthworms, deer, and canopy gaps

dc.contributor.author	Reed, Samuel P.
dc.contributor.author	Bronson, Dustin R.
dc.contributor.author	Forrester, Jodi A.
dc.contributor.author	Prudent, Leah M.
dc.contributor.author	Yang, Anna M.
dc.contributor.author	Yantes, Austin M.
dc.contributor.author	Reich, Peter B.
dc.contributor.author	Frelich, Lee E.
dc.date.accessioned	2023-06-01T20:47:59Z
dc.date.available	2024-07-01 16:47:56	en
dc.date.available	2023-06-01T20:47:59Z
dc.date.issued	2023-06
dc.identifier.citation	Reed, Samuel P.; Bronson, Dustin R.; Forrester, Jodi A.; Prudent, Leah M.; Yang, Anna M.; Yantes, Austin M.; Reich, Peter B.; Frelich, Lee E. (2023). "Linked disturbance in the temperate forest: Earthworms, deer, and canopy gaps." Ecology 104(6): n/a-n/a.
dc.identifier.issn	0012-9658
dc.identifier.issn	1939-9170
dc.identifier.uri	https://hdl.handle.net/2027.42/176813
dc.description.abstract	Despite the large body of theory concerning multiple disturbances, relatively few attempts have been made to test the theoretical assumptions of how and if disturbances interact. Of particular importance is whether disturbance events are linked, as this can influence the probability and intensity of ecological change. Disturbances are linked when one disturbance event increases or decreases the likelihood or extent of another. To this end, we used two long-term, multi-disturbance experiments in northern Wisconsin to determine whether earthworm invasion is linked to canopy gap creation and white-tailed deer browsing. These three disturbances are common and influential within North American temperate forests, making any interactions among them particularly important to understand. We expected both deer and canopy gaps to favor invasive earthworms, particularly species that live close to or on the soil surface. However, we found only partial support of our hypotheses, as both deer exclosures and canopy gaps decreased earthworms in each experiment. Further, earthworm density increased the most over time in areas far from the gap center and in areas with deer present. Deer exclosures primarily decreased Aporrectodea and Lumbricus species, while gaps decreased Dendrobaena and Lumbricus species. Our findings show that earthworm invasion is linked to deer presence and gap-creating disturbances, which provides new insight in multiple disturbance theory, aboveground–belowground dynamics, and temperate forest management.
dc.publisher	John Wiley & Sons, Inc.
dc.subject.other	ungulates
dc.subject.other	white-tailed deer
dc.subject.other	temperate forest
dc.subject.other	aboveground–belowground interactions
dc.subject.other	canopy gaps
dc.subject.other	invasive earthworms
dc.subject.other	linked disturbance
dc.title	Linked disturbance in the temperate forest: Earthworms, deer, and canopy gaps
dc.type	Article
dc.rights.robots	IndexNoFollow
dc.subject.hlbsecondlevel	Ecology and Evolutionary Biology
dc.subject.hlbtoplevel	Science
dc.description.peerreviewed	Peer Reviewed
dc.description.bitstreamurl	http://deepblue.lib.umich.edu/bitstream/2027.42/176813/1/ecy4040-sup-0001-AppendixS1.pdf
dc.description.bitstreamurl	http://deepblue.lib.umich.edu/bitstream/2027.42/176813/2/ecy4040_am.pdf
dc.description.bitstreamurl	http://deepblue.lib.umich.edu/bitstream/2027.42/176813/3/ecy4040-sup-0002-AppendixS2.pdf
dc.description.bitstreamurl	http://deepblue.lib.umich.edu/bitstream/2027.42/176813/4/ecy4040.pdf
dc.identifier.doi	10.1002/ecy.4040
dc.identifier.source	Ecology
dc.identifier.citedreference	Mathieu, J., S. Barot, M. Blouin, G. Caro, T. Decaëns, F. Dubs, L. Dupont, P. Jouquet, and P. Nai. 2010. “ Habitat Quality, Conspecific Density, and Habitat Pre-Use Affect the Dispersal Behaviour of Two Earthworm Species, Aporrectodea Icterica and Dendrobaena Veneta, in a Mesocosm Experiment.” Soil Biology and Biochemistry 42: 203 – 9.
dc.identifier.citedreference	Kern, C. C., R. A. Montgomery, P. B. Reich, and T. F. Strong. 2013. “ Canopy Gap Size Influences Niche Partitioning of the Ground-Layer Plant Community in a Northern Temperate Forest.” Journal of Plant Ecology 6: 101 – 12.
dc.identifier.citedreference	Lake, P. S. 2000. “ Disturbance, Patchiness, and Diversity in Streams.” Journal of the North American Benthological Society 19: 573 – 92.
dc.identifier.citedreference	Landuyt, D., E. De Lombaerde, M. P. Perring, L. R. Hertzog, E. Ampoorter, S. L. Maes, P. De Frenne, et al. 2019. “ The Functional Role of Temperate Forest Understorey Vegetation in a Changing World.” Global Change Biology 25: 3625 – 41.
dc.identifier.citedreference	Lenth, R. V., P. Buerkner, M. Herve, J. Love, F. Miguez, H. Riebl, and H. Singmann. 2022. “emmeans: Estimated Marginal Means, Aka Least-Squares Means. ” https://cran.r-project.org/web/packages/emmeans/emmeans.pdf.
dc.identifier.citedreference	Mahon, M. B., and T. O. Crist. 2019. “ Invasive Earthworm and Soil Litter Response to the Experimental Removal of White-Tailed Deer and an Invasive Shrub.” Ecology 100: e02688.
dc.identifier.citedreference	Mahon, M. B., M. C. Fisk, and T. O. Crist. 2020. “ Interactive Effects of White-Tailed Deer, an Invasive Shrub, and Exotic Earthworms on Leaf Litter Decomposition.” Ecosystems 23: 1523 – 35.
dc.identifier.citedreference	Murray, B. D., C. R. Webster, and J. K. Bump. 2013. “ Broadening the Ecological Context of Ungulate–Ecosystem Interactions: The Importance of Space, Seasonality, and Nitrogen.” Ecology 94: 1317 – 26.
dc.identifier.citedreference	Muscolo, A., S. Bagnato, M. Sidari, and R. Mercurio. 2014. “ A Review of the Roles of Forest Canopy Gaps.” Journal of Forestry Research 25: 725 – 36.
dc.identifier.citedreference	Nachtergale, L., K. Ghekiere, A. De Schrijver, B. Muys, S. Luyssaert, and N. Lust. 2002. “ Earthworm Biomass and Species Diversity in Windthrow Sites of a Temperate Lowland Forest.” Pedobiologia 46: 440 – 51.
dc.identifier.citedreference	NOAA, U.S. Climate Normals 2006–2020. 2022. “NOAA National Centers for Environmental Information Station.” https://www.ncei.noaa.gov/access/us-climate-normals/#dataset=normals-monthly&timeframe=15&station=USC00475516.
dc.identifier.citedreference	Nuutinen, V., and K. R. Butt. 2009. “ Worms from the Cold: Lumbricid Life Stages in Boreal Clay during Frost.” Soil Biology and Biochemistry 41: 1580 – 2.
dc.identifier.citedreference	Ohira, M., T. Gomi, A. Iwai, M. Hiraoka, and Y. Uchiyama. 2022. “ Ecological Resilience of Physical Plant–Soil Feedback to Chronic Deer Herbivory: Slow, Partial but Functional Recovery.” Ecological Applications 32: e2656.
dc.identifier.citedreference	Oksanen, J., G. L. Simpson, F. G. Blanchet, R. Kindt, P. Legendre, P. R. Minchin, R. B. O’Hara, et al. 2022. “Vegan: Community Ecology Package. ” https://cran.r-project.org/web/packages/vegan/vegan.pdf.
dc.identifier.citedreference	Paine, R. T., M. J. Tegner, and E. A. Johnson. 1998. “ Compounded Perturbations Yield Ecological Surprises.” Ecosystems 1: 535 – 45.
dc.identifier.citedreference	Park, A., K. Puettmann, E. Wilson, C. Messier, S. Kames, and A. Dhar. 2014. “ Can Boreal and Temperate Forest Management be Adapted to the Uncertainties of 21st Century Climate Change? ” Critical Reviews in Plant Sciences 33: 251 – 85.
dc.identifier.citedreference	Perreault, J. M., and J. K. Whalen. 2006. “ Earthworm Burrowing in Laboratory Microcosms as Influenced by Soil Temperature and Moisture.” Pedobiologia 50: 397 – 403.
dc.identifier.citedreference	Powers, M. D., and L. M. Nagel. 2009. “ Pennsylvania Sedge Cover, Forest Management and Deer Density Influence Tree Regeneration Dynamics in a Northern Hardwood Forest.” Forestry: An International Journal of Forest Research 82: 241 – 54.
dc.identifier.citedreference	Ratajczak, Z., P. D’Odorico, S. L. Collins, B. T. Bestelmeyer, F. I. Isbell, and J. B. Nippert. 2017. “ The Interactive Effects of Press/Pulse Intensity and Duration on Regime Shifts at Multiple Scales.” Ecological Monographs 87: 198 – 218.
dc.identifier.citedreference	Reed, S. P., D. R. Bronson, J. A. Forrester, L. M. Prudent, A. M. Yang, A. M. Yantes, P. B. Reich, and L. E. Frelich. 2023a. “Data for Linked Disturbance in the Temperate Forest: Earthworms, Deer, and Canopy Gaps.” Dryad, Dataset. https://doi.org/10.5061/dryad.dfn2z354s.
dc.identifier.citedreference	Reed, S. P., D. R. Bronson, J. A. Forrester, L. M. Prudent, A. M. Yang, A. M. Yantes, P. B. Reich, and L. E. Frelich. 2023b. “Data for Linked Disturbance in the Temperate Forest: Earthworms, Deer, and Canopy Gaps.” Zenodo. https://doi.org/10.5281/zenodo.6816514.
dc.identifier.citedreference	Reed, S. P., A. A. Royo, A. T. Fotis, K. S. Knight, C. E. Flower, and P. S. Curtis. 2022. “ The Long-Term Impacts of Deer Herbivory in Determining Temperate Forest Stand and Canopy Structural Complexity.” Journal of Applied Ecology 59: 812 – 21.
dc.identifier.citedreference	Rooney, T., and D. Waller. 2003. “ Direct and Indirect Effects of White-Tailed Deer in Forest Ecosystems.” Forest Ecology and Management 181: 165 – 76.
dc.identifier.citedreference	Royo, A. A., and W. P. Carson. 2006. “ On the Formation of Dense Understory Layers in Forests Worldwide: Consequences and Implications for Forest Dynamics, Biodiversity, and Succession.” Canadian Journal of Forest Research 36: 1345 – 62.
dc.identifier.citedreference	Royo, A. A., and W. P. Carson. 2022. “ Stasis in Forest Regeneration Following Deer Exclusion and Understory Gap Creation: A 10-Year Experiment.” Ecological Applications 32: e2569.
dc.identifier.citedreference	Sabo, A. E., K. L. Frerker, D. M. Waller, and E. L. Kruger. 2017. “ Deer-Mediated Changes in Environment Compound the Direct Impacts of Herbivory on Understorey Plant Communities.” Journal of Ecology 105: 1386 – 98.
dc.identifier.citedreference	Shelton, A. L., J. A. Henning, P. Schultz, and K. Clay. 2014. “ Effects of Abundant White-Tailed Deer on Vegetation, Animals, Mycorrhizal Fungi, and Soils.” Forest Ecology and Management 320: 39 – 49.
dc.identifier.citedreference	Suárez, E. R., T. J. Fahey, J. B. Yavitt, P. M. Groffman, and P. J. Bohlen. 2006. “ Patterns of Litter Disappearance In A Northern Hardwood Forest Invaded by Exotic Earthworms.” Ecological Applications 16: 154 – 65.
dc.identifier.citedreference	Turner, M. G. 2010. “ Disturbance and Landscape Dynamics in a Changing World.” Ecology 91: 2833 – 49.
dc.identifier.citedreference	VanderMolen, M. S., S. P. Knapp, C. R. Webster, C. C. Kern, and Y. L. Dickinson. 2021. “ Spatial Patterning of Regeneration Failure in Experimental Canopy Gaps 15–24 Years Post-Harvest.” Forest Ecology and Management 499: 119577.
dc.identifier.citedreference	A’Bear, A., S. Johnson, and T. Jones. 2013. “ Putting the “Upstairs-Downstairs” into Ecosystem Service: What Can Aboveground-Belowground Ecology Tell us? ” Biological Control 75: 97 – 107.
dc.identifier.citedreference	Bardgett, R. D., and D. A. Wardle. 2003. “ Herbivore-Mediated Linkages between Aboveground and Belowground Communities.” Ecology 84: 2258 – 68.
dc.identifier.citedreference	Bart, S., C. Pelosi, and A. R. R. Pery. 2019. “ Towards a better understanding of the life cycle of the earthworm Aporrectodea caliginosa: New data and energy-based modelling.” Pedobiologia 77: 1 – 8.
dc.identifier.citedreference	Bates, D., M. Mächler, B. Bolker, and S. Walker. 2015. “ Fitting Linear Mixed-Effects Models Using lme4.” Journal of Statistical Software 67: 1 – 48.
dc.identifier.citedreference	Bergstrom, D. M., B. C. Wienecke, J. van den Hoff, L. Hughes, D. B. Lindenmayer, T. D. Ainsworth, C. M. Baker, et al. 2021. “ Combating Ecosystem Collapse from the Tropics to the Antarctic.” Global Change Biology 27: 1692 – 703.
dc.identifier.citedreference	Bernes, C., B. Macura, B. G. Jonsson, K. Junninen, J. Müller, J. Sandström, A. Lõhmus, et al. 2018. “ Manipulating Ungulate Herbivory in Temperate and Boreal Forests: Effects on Vegetation and Invertebrates.” A systematic review. Environmental Evidence 7: 13.
dc.identifier.citedreference	Bohlen, P. J., S. Scheu, C. M. Hale, M. A. McLean, S. Migge, P. M. Groffman, and D. Parkinson. 2004. “ Non-native Invasive Earthworms as Agents of Change in Northern Temperate Forests.” Frontiers in Ecology and the Environment 2: 427 – 35.
dc.identifier.citedreference	Bottinelli, N., M. Hedde, P. Jouquet, and Y. Capowiez. 2020. “ An Explicit Definition of Earthworm Ecological Categories–Marcel Bouché’s Triangle Revisited.” Geoderma 372: 114361.
dc.identifier.citedreference	Brooks, M. E., K. Kristensen, K. J. van Benthem, A. Magnusson, C. W. Berg, A. Nielsen, H. J. Skaug, et al. 2017. “ glmmTMB Balances Speed and Flexibility among Packages for Zero-Inflated Generalized Linear Mixed Modeling.” The R Journal 9: 378 – 400.
dc.identifier.citedreference	Buma, B. 2015. “ Disturbance Interactions: Characterization, Prediction, and the Potential for Cascading Effects.” Ecosphere 6: 1 – 15.
dc.identifier.citedreference	Buma, B. 2021. “ Disturbance Ecology and the Problem of n = 1: A Proposed Framework for Unifying Disturbance Ecology Studies to Address Theory across Multiple Ecological Systems.” Methods in Ecology and Evolution 12: 2276 – 86.
dc.identifier.citedreference	Burton, J. I., D. J. Mladenoff, J. A. Forrester, and M. K. Clayton. 2021. “ Effects of Forest Canopy Gaps on the Ground-Layer Plant Community Depend on Deer: Evidence from a Controlled Experiment.” Journal of Vegetation Science 32: e12969.
dc.identifier.citedreference	Burton, P. J., A. Jentsch, and L. R. Walker. 2020. “ The Ecology of Disturbance Interactions.” Bioscience 70: 854 – 70.
dc.identifier.citedreference	Butt, K. R. 1993. “ Reproduction and Growth of Three Deep-Burrowing Earthworms (Lumbricidae) in Laboratory Culture in Order to Assess Production for Soil Restoration.” Biology and Fertility of Soils 16: 135 – 8.
dc.identifier.citedreference	Cambronne, A. 2013. Deerland: America’s Hunt for Ecological Balance and the Essence of Wildness. Lanham: Rowman & Littlefield.
dc.identifier.citedreference	Cannon, J. B., C. J. Peterson, J. J. O’Brien, and J. S. Brewer. 2017. “ A Review and Classification of Interactions between Forest Disturbance from Wind and Fire.” Forest Ecology and Management 406: 381 – 90.
dc.identifier.citedreference	Cassin, C. M., and P. M. Kotanen. 2016. “ Invasive Earthworms as Seed Predators of Temperate Forest Plants.” Biological Invasions 18: 1567 – 80.
dc.identifier.citedreference	Chang, C.-H., M. L. C. Bartz, G. Brown, M. A. Callaham, E. K. Cameron, A. Dávalos, A. Dobson, et al. 2021. “ The Second Wave of Earthworm Invasions in North America: Biology, Environmental Impacts, Management and Control of Invasive Jumping Worms.” Biological Invasions 23: 3291 – 322.
dc.identifier.citedreference	Chang, C.-H., K. Szlavecz, T. Filley, J. S. Buyer, M. J. Bernard, and S. L. Pitz. 2016. “ Belowground Competition among Invading Detritivores.” Ecology 97: 160 – 70.
dc.identifier.citedreference	Cope, C. G., and J. H. Burns. 2019. “ Effects of Native Deer on Invasive Earthworms Depend on Earthworm Functional Feeding Group and Correlate with Earthworm Body Size.” Forest Ecology and Management 435: 180 – 6.
dc.identifier.citedreference	Côté, S. D., T. P. Rooney, J.-P. Tremblay, C. Dussault, and D. M. Waller. 2004. “ Ecological Impacts of Deer Overabundance.” Annual Review of Ecology, Evolution, and Systematics 35: 113 – 47.
dc.identifier.citedreference	Dale, V. H., L. A. Joyce, S. McNulty, and R. P. Neilson. 2000. “ The Interplay between Climate Change, Forests, and Disturbances.” Science of the Total Environment 262: 201 – 4.
dc.identifier.citedreference	Darwin, C. 1881. The Formation of Vegetable Mould through the Action of Worms with Observations on their Habits. London: John Murray.
dc.identifier.citedreference	Dávalos, A., E. Simpson, V. Nuzzo, and B. Blossey. 2015. “ Non-consumptive Effects of Native Deer on Introduced Earthworm Abundance.” Ecosystems 18: 1029 – 42.
dc.identifier.citedreference	Dobson, A., and B. Blossey. 2015. “ Earthworm Invasion, White-Tailed Deer and Seedling Establishment in Deciduous Forests of North-Eastern North America.” Journal of Ecology 103: 153 – 64.
dc.identifier.citedreference	Fassnacht, K., E. Padley, T. Steele, C. Lorimer, B. Palik, A. D’Amato, and K. Martin. 2013. Development and Implementation of Treatments in a Long-Term Experiment to Enhance Forest Structural and Compositional Complexity in Second-Growth, Northern Hardwood Forests. USA: Wisconsin Department of Natural Resources.
dc.identifier.citedreference	Fassnacht, K. S., and T. W. Steele. 2016. “ Snag Dynamics in Northern Hardwood Forests under Different Management Scenarios.” Forest Ecology and Management 363: 267 – 76.
dc.identifier.citedreference	Fernández, R., M. Novo, M. Gutiérrez, A. Almodóvar, and D. J. Díaz Cosín. 2010. “ Life Cycle and Reproductive Traits of the Earthworm Aporrectodea Trapezoides (Dugès, 1828) in Laboratory Cultures.” Pedobiologia 53: 295 – 9.
dc.identifier.citedreference	Fisichelli, N. A., L. E. Frelich, P. B. Reich, and N. Eisenhauer. 2013. “ Linking Direct and Indirect Pathways Mediating Earthworms, Deer, and Understory Composition in Great Lakes Forests.” Biological Invasions 15: 1057 – 66.
dc.identifier.citedreference	Fisichelli, N. A., and K. M. Miller. 2018. “ Weeds, Worms, and Deer: Positive Relationships among Common Forest Understory Stressors.” Biological Invasions 20: 1337 – 48.
dc.identifier.citedreference	Forrester, J. A., C. G. Lorimer, J. H. Dyer, S. T. Gower, and D. J. Mladenoff. 2014. “ Response of Tree Regeneration to Experimental Gap Creation and Deer Herbivory in North Temperate Forests.” Forest Ecology and Management 329: 137 – 47.
dc.identifier.citedreference	Forrester, J. A., D. J. Mladenoff, S. T. Gower, and J. L. Stoffel. 2012. “ Interactions of Temperature and Moisture with Respiration from Coarse Woody Debris in Experimental Forest Canopy Gaps.” Forest Ecology and Management 265: 124 – 32.
dc.identifier.citedreference	Foster, C. N., C. F. Sato, D. B. Lindenmayer, and P. S. Barton. 2016. “ Integrating Theory into Disturbance Interaction Experiments to Better Inform Ecosystem Management.” Global Change Biology 22: 1325 – 35.
dc.identifier.citedreference	Frelich, L. E. 2002. Forest Dynamics and Disturbance Regimes: Studies from Temperate Evergreen-Deciduous Forests. Cambridge: Cambridge University Press.
dc.identifier.citedreference	Frelich, L. E., B. Blossey, E. K. Cameron, A. Dávalos, N. Eisenhauer, T. Fahey, O. Ferlian, et al. 2019. “ Side-Swiped: Ecological Cascades Emanating from Earthworm Invasions.” Frontiers in Ecology and the Environment 17: 502 – 10.
dc.identifier.citedreference	Ganault, P., J. Nahmani, S. Hättenschwiler, L. M. Gillespie, J.-F. David, L. Henneron, E. Iorio, et al. 2021. “ Relative Importance of Tree Species Richness, Tree Functional Type, and Microenvironment for Soil Macrofauna Communities in European Forests.” Oecologia 196: 455 – 68.
dc.identifier.citedreference	Graham, E. B., C. Averill, B. Bond-Lamberty, J. E. Knelman, S. Krause, A. L. Peralta, A. Shade, et al. 2021. “ Toward a Generalizable Framework of Disturbance Ecology through Crowdsourced Science.” Frontiers in Ecology and Evolution 9: 76.
dc.identifier.citedreference	Hale, C. M., L. E. Frelich, and P. B. Reich. 2005. “ Exotic European Earthworm Invasion Dynamics in Northern Hardwood Forests of Minnesota.” Ecological Applications 15: 848 – 60.
dc.identifier.citedreference	Hale, C. M., L. E. Frelich, and P. B. Reich. 2006. “ Changes in Hardwood Forest Understory Plant Communities in Response to European Earthworm Invasions.” Ecology 87: 1637 – 49.
dc.identifier.citedreference	Hale, C. M., P. B. Reich, and L. E. Frelich. 2004. “ Allometric Equations for Estimation of Ash-Free Dry Mass from Length Measurements for Selected European Earthworm Species (Lumbricidae) in the Western Great Lakes Region.” The American Midland Naturalist 151: 179 – 85.
dc.identifier.citedreference	Hanberry, B. B., and E. K. Faison. 2023. “ Re-Framing Deer Herbivory as a Natural Disturbance Regime with Ecological and Socioeconomic Outcomes in the Eastern United States.” Science of the Total Environment 868: 161669.
dc.identifier.citedreference	Hartig, F. 2022. “DHARMa: Residual Diagnostics for Hierarchical (Multi-level/Mixed) Regression Models. ” https://cran.r-project.org/web/packages/DHARMa/vignettes/DHARMa.html.
dc.identifier.citedreference	Jentsch, A., and P. White. 2019. “ A Theory of Pulse Dynamics and Disturbance in Ecology.” Ecology 100: e02734.
dc.identifier.citedreference	Johnstone, J. F., C. D. Allen, J. F. Franklin, L. E. Frelich, B. J. Harvey, P. E. Higuera, M. C. Mack, et al. 2016. “ Changing Disturbance Regimes, Ecological Memory, and Forest Resilience.” Frontiers in Ecology and the Environment 14: 369 – 78.
dc.working.doi	NO	en
dc.owningcollname	Interdisciplinary and Peer-Reviewed

Files in this item

Name:: ecy4040-sup-0001-AppendixS1.pdf
Size:: 497.9KB
Format:: PDF

View/Open

Name:: ecy4040_am.pdf
Size:: 6.667MB
Format:: PDF

View/Open

Name:: ecy4040-sup-0002-AppendixS2.pdf
Size:: 1.712MB
Format:: PDF

View/Open

Name:: ecy4040.pdf
Size:: 1.778MB
Format:: PDF

View/Open

Interdisciplinary and Peer-Reviewed

Show simple item record

Remediation of Harmful Language

The University of Michigan Library aims to describe library materials in a way that respects the people and communities who create, use, and are represented in our collections. Report harmful or offensive language in catalog records, finding aids, or elsewhere in our collections anonymously through our metadata feedback form. More information at Remediation of Harmful Language.

Accessibility

If you are unable to use this file in its current format, please select the Contact Us link and we can modify it to make it more accessible to you.