Michigan's Natural Communities
State Rank: S2
County Distribution Map
Limestone cliff consists of vertical or near-vertical exposures of bedrock, which typically support less than 25% vascular plant coverage, although some rock surfaces can be densely covered with lichens, mosses, and liverworts. The community occurs predominantly in the Upper Peninsula, most typically within a few kilometers of the Lake Michigan and Lake Huron shorelines, on the Niagaran Escarpment and Cuestra, but with isolated occurrences of much older Precambrian-aged limestones and dolomites in the western Upper Peninsula. Limestone cliffs also occur within sinkholes within Devonian Limestone in the northern Lower Peninsula. Like most of Michigan’s cliffs, vegetation cover is sparse, but abundant cracks and crevices combined with calcareous conditions result in greater plant diversity and coverage than on most other cliff types.
Limestone and dolomite cliffs are scattered along the Niagaran Escarpment, from the Garden Peninsula on northwestern Lake Michigan to Mackinac and Drummond Islands in northern Lake Huron. On the Niagaran Escarpment, limestone cliffs extend southwest onto the Door Peninsula of Wisconsin and east to the Bruce Peninsula in Ontario, and farther east into New York. In the western Upper Peninsula, limestone cliffs are quite localized in Houghton County west of L’Anse and south of Marquette in Marquette County. Karst features, such as sinkholes, occur in the Devonian-aged limestone of Presque Isle and Alpena counties, and there are small cliffs near the Lake Huron shoreline in both counties as well. Limestone cliffs also occur in Vermont and New Hampshire. In the Upper Peninsula of Michigan, limestone cliff is typically bordered along its margins by boreal forest, mesic northern forest, or occasionally by dry-mesic northern forest.
Soil development is primarily limited to thin organic soils that form from decaying roots and other plant materials along the top of the cliff escarpment and ledges, in cracks and crevices in the bedrock, and at the base of the cliff. Breakdown of limestone and plant debris results in a sandy to loamy, organic-rich soil, with mildly alkaline to alkaline pH.
The vertical structure of cliffs causes constant erosion and restricts soil development to the cliff edge, cracks, ledges, and the base of the cliff where organic matter and soil particles can accumulate. The thin soils and direct exposure to wind, ice, and sun produce desiccating conditions that limit plant growth. However, cliff aspect and local seepages result in a variability of site moisture conditions. North- and east-facing cliffs are typically moister than south- and west-facing cliffs because of reduced wind and reduced direct exposure to the sun. Moisture can be locally present on cliff faces due to local groundwater seepage along the cliff face or surface flow across the cliff face during rain events or snow melt. In addition, where limestone cliff occurs close to the Great Lakes, a moderated climate generates moist conditions along the cliff face. Weathering results in the gradual exfoliation of limestone along the cliff face, which adds to the instability of the ecosystem, reducing dependable habitat for plant establishment. As portions of the bedrock slough off, they form talus slopes along the base of cliffs and expose fresh, bare rock substrates along the cliff face. Windthrow of canopy trees along the cliff escarpment is common due to the thin soils, unstable substrate, and high wind activity. Windblown trees along ledges and at the base of the cliff provide localized areas for soil accumulation.
While lichens, mosses, and liverworts are common on the exposed cliff face, vascular plant cover is sparse, being generally restricted to the flat, exposed bedrock at the upper edge of the cliff (i.e., lip), cracks, joints, and ledges in the cliff face, and cliff base, where a talus slope typically accumulates. Lichens, mosses, and liverworts are especially abundant on moist seepages and cooler north aspects. Among the most common trees on the forested ridge tops are sugar maple (Acer saccharum), northern white-cedar (Thuja occidentalis), and balsam fir (Abies balsamea). Common herbaceous plants occurring at the cliff edge and in the cliff-top and cliff-base forests include common polypody (Polypodium virginianum), large-leaved aster (Aster macrophyllus), Canada mayflower (Maianthemum canadense), wild strawberry (Fragaria virginiana), starflower (Trientalis borealis), and wild sarsaparilla (Aralia nudicaulis). On the open cliff face, vegetation cover is sparse and confined to ledges and cracks. Common tree species on the cliff face are northern white-cedar and paper birch (Betula papyrifera), both species that root in crevices in the rock. Balsam fir is often present in the subcanopy and understory. Common herbs on the cliff face include grass-leaved goldenrod (Euthamia graminifolia) and herb Robert (Geranium robertianum). Ferns are prevalent along the cliff face, especially along moist exposures. Characteristic ferns include common polypody (Polypodium virginianum), fragile fern (Cystopteris fragilis), smooth cliff brake (Pellaea glabella), maidenhair spleenwort (Asplenium trichomanes), bracken fern (Pteridium aquilinum), Oregon woodsia (Woodsia oregana), and wall-rue (Asplenium ruta-muraria, state endangered). Common shrubs on the cliffs include soapberry (Shepherdia canadensis), bush honeysuckle (Diervilla lonicera), Canada yew (Taxus canadensis), mountain maple (Acer spicatum), and red elderberry (Sambucus pubens). Shrubs such as round-leaved dogwood (Cornus rugosa), mountain maple, and red elderberry grow on the talus at the base of the cliff. Several invasive plants commonly establish on or near limestone cliffs, including common mullein (Verbascum thapsus), hound’s-tongue (Cynoglossum officinale), bittersweet nightshade (Solanum dulcamara), chickweed (Cerastium glomeratum), and ox-eye daisy (Chrysanthemum leucanthemum). Recently, cryptoendolithic species of algae have been found to grow within the structure of the rock, creating the dark surface color of limestone rock.
Studies of limestone cliffs in Ontario found that there were three distinct zones of vegetation that share few species: ridge-top forest, cliff face, and talus. This zonation is also apparent in many Michigan limestone cliff systems; however, where the vertical height of the cliffs is low, there is a significant amount of overlap in terms of species composition among the zones.
Large crevices in cliffs provide hibernacula for bats (Myotis spp.) and snakes, including eastern garter snake (Thamnophis sirtalis), western fox snake (Elaphe vulpna), and northern ring-necked snake (Diadophis punctatus edwardsii). Birds found commonly nesting on limestone and dolomite cliffs include American goldfinch (Carduelis tristis), Nashville warbler (Vermivora ruficapilla), and cliff swallow (Petrochelidon pyrrhonota). White-footed mouse (Peromyscus leucopus), deer mouse (P. maniculatus), and raccoon (Procyon lotor) also commonly utilize the cliffs. Eastern chipmunks (Tamais striatus) and other rodents burrow and nest in the protected habitat of the talus. Caddisflies (Trichoptera), mosquitoes (Culicidae), and solitary midges (Thaumaleidae) are found associated with continuous seepage areas on cliffs, and many species of spider (Arachnida) are common as well.
- Asplenium rhizophyllum (walking fern, state threatened)
- Asplenium ruta-muraria (wall-rue, state endangered)
- Asplenium scolopendrium var. americanum (Hart’s-tongue fern, state endangered)
- Asplenium trichomanes-ramosum (green spleenwort, state threatened)
- Astragalus neglectus (Cooper’s milk vetch, state special concern)
- Braya humilis (low northern rock-cress, state threatened)
- Cryptogramma stelleri (slender cliff-brake, state special concern)
- Danthonia intermedia (wild oat-grass, state special concern)
- Draba arabisans (rock whitlow-grass, state special concern)
- Draba cana (ashy whitlow-grass, state threatened)
- Dryopteris filix-mas (male fern, state special concern)
- Pellaea atropurpurea (purple cliff-brake, state threatened)
- Woodsia alpina (northern woodsia, state threatened)
- Woodsia obtusa (blunt-lobed woodsia, state threatened)
- Falco columbarius (merlin, state threatened)
- Falco peregrinus (Peregrine falcon, state endangered)
- Gastrocopta holzingeri (lambda snaggletooth snail, state special concern)
- Guppya sterkii (land snail, state special concern)
- Haliaeetus leucocephalus (bald eagle, state threatened)
- Hendersonia occulta (cherrystone drop, state special concern)
- Planogyra asteriscus (eastern flat-whorl, state special concern)
- Vallonia gracilicosta albula (land snail, state special concern)
- Vertigo bollesiana (delicate vertigo, state special concern)
- Vertigo cristata (land snail, state special concern)
- Vertigo paradoxa (land snail, state special concern)
Biodiversity Management Considerations
Threats to cliffs include logging of adjacent uplands and associated soil erosion, excessive foot traffic along the upper edge, rock climbing, and invasive plants. The thin soils and unstable cliff environment make soil development and plant reestablishment slow, highlighting the importance of minimizing logging and excessive trampling along the upper edge of cliffs. Rock climbing can result in damage and loss of vegetation on cliff faces, as many lichens and mosses of the cliffs have extremely slow recovery rates. Maintaining a mature, unfragmented forested buffer around limestone cliff may help limit the local seed source for invasive species distributed by wind or birds. Some of the invasive plants that may threaten diversity and structure of limestone cliffs include spotted knapweed (Centaurea maculosa), chickweed, ox-eye daisy, Canada bluegrass (Poa compressa), Kentucky bluegrass (P. pratensis), sheep sorrel (Rumex acetosella), hawkweeds (Hieracium spp.), common mullein, hound’s-tongue, and bittersweet nightshade. Monitoring and control efforts to detect and remove these and other invasive species will help maintain the ecological integrity of limestone cliff and surrounding natural communities.
The limestone is quite variable across the Niagaran Escarpment, including magnesium-rich limestone (i.e., dolomite) and argillaceous, or muddy limestone. These chemical differences result in different physical appearance and characteristics, such as hardness and amount and size of crevices. These physical and chemical differences translate to different habitat characteristics and species composition.
Similar Natural Communities
- Albert, D.A., P. Comer, D. Cuthrell, D. Hyde, W. MacKinnon, M. Penskar, and M. Rabe. 1997. The Great Lakes bedrock lakeshores of Michigan. Michigan Natural Features Inventory, Lansing, MI. 218 pp.
- Dorr, J.A., Jr., and D.F. Eschman. 1970. Geology of Michigan. University of Michigan Press, Ann Arbor, MI. 470 pp.
- Faber-Langendoen, D., ed. 2001. Plant communities of the Midwest: Classification in an ecological context. Association for Biodiversity Information, Arlington, VA. 61 pp. + appendix (705 pp.).
- Lawson, D.W., U. Matthes-Sears, and P.E. Kelly. 1999. The cliff ecosystems of the Niagara Escarpment. Pp. 362-374 in Savannas, barrens, and rock outcrop plant communities of North America, ed. R.C. Anderson, J.S. Fralish, and J.M. Baskin. Cambridge University Press, Cambridge, UK. 480 pp.
- Reschke, C., R. Reid, J. Jones, T. Feeney, and H. Potter. 1999. Conserving Great Lakes alvar: Final technical report of the International Alvar Conservation Initiative. The Nature Conservancy, Chicago, IL. 241 pp.
- Thompson, E.H., and E.R. Sorenson. 2005. Wetland, woodland, and wildland: A guide to the natural communities of Vermont. The Nature Conservancy and Vermont Department of Fish and Game. University Press of New England, Lebanon, NH. 456 pp.
- Kost, M.A., D.A. Albert, J.G. Cohen, B.S. Slaughter, R.K. Schillo, C.R. Weber, and K.A. Chapman. 2007. Natural Communities of Michigan: Classification and Description. Michigan Natural Features Inventory, Report No. 2007-21, Lansing, MI.
Page updated on 02-11-2008