Abstract
Three hypotheses regarding relationships between community diversity and occurrences of rare and non-native species and community stability include: (1) diverse communities contain the greatest numbers of rare species, (2) hotspots of native species richness and abundance also support many non-native species, and (3) community diversity promotes stability. We explored these hypotheses by sampling plant communities during two years (2018, 2021) in 151, 0.05-ha plots across a landscape of temperate forests and open habitats (e.g., prairies) in Ohio, USA. Occurrence of rare plant species corresponded with the most species-rich and diverse (Shannon diversity index) communities in one or both study years. Species richness of native and non-native plants was positively associated both years but cover was not. Stability of species composition between 2018 and 2021 was unrelated to 2018 species richness and was negatively related to community diversity and evenness. The most diverse sites were not the most compositionally stable. Although statistically significant relationships occurred between community diversity measures and rare and non-native species distributions and community compositional stability, the relationships were often weak or mainly only evident at the extremes. Moreover, variance partitioning indicated that occurrences of rare and non-native species and community compositional stability were more closely associated with location effects within the landscape and community type than they were to community diversity. Nevertheless, when especially high or low, community diversity measures may facilitate predicting levels of other community components of conservation priority, such as rare species occurrences.
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Data availability
The plant community dataset analyzed in the paper is available in Online Resource 1, which includes a listing of species recorded on plots during the study.
References
Abella, S. R., Engel, E. C., Springer, J. D., & Covington, W. W. (2012). Relationships of exotic plant communities with native vegetation, environmental factors, disturbance, and landscape ecosystems of Pinus ponderosa forests, USA. Forest Ecology and Management, 271, 65–74.
Abella, S. R., & Tendick, A. (2013). Distribution of exotic plant species and relationship to vegetation type at Bryce Canyon National Park, USA. Landscape and Urban Planning, 120, 48–58.
Abella, S. R., Schetter, T. A., & Walters, T. L. (2018). Testing the hypothesis of hierarchical predictability in ecological restoration and succession. Oecologia, 186, 541–553.
Abella, S. R., Menard, K. S., Schetter, T. A., Sprow, L. A., & Jaeger, J. F. (2020). Rapid and transient changes during 20 years of restoration management in savanna-woodland-prairie habitats threatened by woody plant encroachment. Plant Ecology, 221, 1201–1217.
Abella, S. R., & Schetter, T. A. (2021). Variation in characteristics and conservation values of plant communities on abandoned agricultural lands with and without fires. Applied Vegetation Science, 24, e12629.
Abrahamson, W. G., & Gadgil, M. (1973). Growth form and reproductive effort in goldenrods (Solidago, Compositae). American Naturalist, 107, 651–661.
Allison, G. (2004). The influence of species diversity and stress intensity on community resistance and resilience. Ecological Monographs, 74, 117–134.
Anderson, M. J. (2001). A new method for non-parametric multivariate analysis of variance. Austral Ecology, 26, 32–46.
Avolio, M. L., Forrestel, E. J., Chang, C. C., La Pierre, K. J., Burghardt, K. T., & Smith, M. D. (2019). Demystifying dominant species. New Phytologist, 223, 1106–1126.
Barry, M. J., Bowers, R., & de Szalay, F. A. (2004). Effects of hydrology, herbivory and sediment disturbance on plant recruitment in a Lake Erie coastal wetland. American Midland Naturalist, 151, 217–232.
Beck, M. W. (1997). Inference and generality in ecology: Current problems and an experimental solution. Oikos, 78, 265–273.
Bestelmeyer, B. T., Miller, J. R., & Wiens, J. A. (2003). Applying species diversity theory to land management. Ecological Applications, 13, 1750–1761.
Bruelheide, H., & Luginbühl, U. (2009). Peeking at ecosystem stability: Making use of a natural disturbance experiment to analyze resistance and resilience. Ecology, 90, 1314–1325.
Catford, J. A., Wilson, J. R. U., Pyšek, P., Hulme, P. E., & Duncan, R. P. (2022). Addressing context dependence in ecology. Trends in Ecology and Evolution, 37, 158–170.
Crisfield, V. E., Dennett, J. M., Denny, C. K., Mao, L., & Nielsen, S. E. (2020). Species richness is a surrogate for rare plant occurrence, but not conservation value, in boreal plant communities. Biodiversity and Conservation, 29, 99–114.
De Winter, J. C. F., Gosling, S. D., & Potter, J. (2016). Comparing the Pearson and Spearman correlation coefficients across distributions and sample sizes: A tutorial using simulations and empirical data. Psychological Methods, 21, 273.
Eviner, V. T., & Hawkes, C. V. (2008). Embracing variability in the application of plant–soil interactions to the restoration of communities and ecosystems. Restoration Ecology, 16, 713–729.
Foster, B. L., Smith, V. H., Dickson, T. L., & Hildebrand, T. (2002). Invasibility and compositional stability in a grassland community: Relationships to diversity and extrinsic factors. Oikos, 99, 300–307.
Fridley, J. D., Stachowicz, J. J., Naeem, S., Sax, D. F., Seabloom, E. W., Smith, M. D., Stohlgren, T. J., Tilman, D., & Von Holle, B. (2007). The invasion paradox: Reconciling pattern and process in species invasions. Ecology, 88, 3–17.
García-Baquero Moneo, G., Gowing, D. J. G., & Wallace, H. (2022). The contribution of the spatial hydrological niche to species diversity in rare plant communities of English floodplain meadows. Plant Ecology, 223, 599–612.
Gill, N. S., Mahood, A. L., Meier, C. L., Muthukrishnan, R., Nagy, R. C., Stricker, E., Duffy, K. A., Petri, L., & Morisette, J. T. (2021). Six central questions about biological invasions to which NEON data science is poised to contribute. Ecosphere, 12, e03728.
Hammer, Ø. (2022). PAST 409, paleontological statistics reference manual. University of Oslo.
Hillebrand, H., Bennett, D. M., & Cadote, M. W. (2008). Consequences of dominance: A review of evenness effects on local and regional ecosystem processes. Ecology, 89, 1510–1520.
Holmes, M. A., & Matlack, G. R. (2019). Non-native plant species show a legacy of agricultural history in second-growth forests of southeastern Ohio. Biological Invasions, 21, 3063–3076.
Irl, S. D. H., Harter, D. E. V., Steinbauer, M. J., Puyol, D. G., Fernández-Palacios, J. M., Jentsch, A., & Beierkuhnlein, C. (2015). Climate vs. topography: Spatial patterns of plant species diversity and endemism on a high-elevation island. Journal of Ecology, 103, 1621–1633.
Irwin, B. J., Wagner, T., Bence, J. R., Kepler, M. V., Liu, W., & Hayes, D. B. (2013). Estimating spatial and temporal components of variation for fisheries count data using negative binomial mixed models. Transactions of the American Fisheries Society, 142, 171–183.
Ives, A. R., & Carpenter, S. R. (2007). Stability and diversity of ecosystems. Science, 317, 58–62.
Kalkman, J. R., Simonton, P., & Dornbos, D. L. (2019). Physiological competitiveness of common and glossy buckthorn compared with native woody shrubs in forest edge and understory habitats. Forest Ecology and Management, 445, 60–69.
Leach, M. K., & Givnish, T. J. (1999). Gradients in the composition, structure, and diversity of remnant oak savannas in southern Wisconsin. Ecological Monographs, 69, 353–374.
Lennon, J. L., Beale, C. M., Reid, C. L., Kent, M., & Pakeman, R. J. (2011). Are richness patterns of common and rare species equally well explained by environmental variables? Ecography, 34, 529–539.
Levine, J. M., & D’Antonio, C. M. (1999). Elton revisited: A review of evidence linking diversity and invisibility. Oikos, 87, 15–26.
Levine, J. M., Adler, P. B., & Yelenik, S. G. (2004). A meta-analysis of biotic resistance to exotic plant invasions. Ecology Letters, 7, 975–989.
MacDonald, R. L., Chen, H. Y. H., Bartels, S. F., Palik, B. J., & Prepas, E. E. (2015). Compositional stability of boreal understorey vegetation after overstorey harvesting across a riparian ecotone. Journal of Vegetation Science, 26, 733–741.
Martin, A. K., & Root, K. V. (2020). Examining land use changes to evaluate the effects of land management in a complex, dynamic landscape. Environmental Management, 66, 333–347.
McCann, K. S. (2000). The diversity-stability debate. Nature, 405, 228–233.
McCune, B., & Mefford, M. J. (1999). PC-ORD: Multivariate analysis of ecological data. MjM Software Design.
Natural Resources Conservation Service. (2022). The PLANTS database. National Plant Data Team, Greensboro, North Carolina. Retrieved January 5, 2022 from http://plants.usda.gov
Ohio Department of Natural Resources. (2020). Rare native Ohio plants, 2020–2021 status list. Ohio Department of Natural Resources.
Omernik, J. M., & Griffith, G. E. (2014). Ecoregions of the conterminous United States: Evolution of a hierarchical spatial framework. Environmental Management, 54, 1249–1266.
Palmer, M. W., & Maurer, T. A. (1997). Does diversity beget diversity? A case study of crops and weeds. Journal of Vegetation Science, 8, 235–240.
Peng, S., Kinlock, N. L., Gurevitch, J., & Peng, S. (2019). Correlation of native and exotic species richness: A global meta-analysis finds no invasion paradox across scales. Ecology, 100, e02552.
Reiners, W. A., Lockwood, J. A., Prager, S. D., & Mulroy, J. C. (2015). Ecological concepts: What are they, what is their value, and for whom? Bulletin of the Ecological Society of America, 96, 64–69.
SAS Institute. (2009). SAS/STAT 94 user’s guide. SAS Institute Inc.
Sankaran, M., & McNaughton, S. J. (1999). Determinants of biodiversity regulate compositional stability of communities. Nature, 401, 691–693.
Sasaki, T., & Lauenroth, W. K. (2011). Dominant species, rather than diversity, regulates temporal stability of plant communities. Oecologia, 166, 761–768.
Schetter, T. A., & Root, K. V. (2011). Assessing an imperiled oak savanna landscape in northwestern Ohio using Landsat data. Natural Areas Journal, 31, 118–130.
Schetter, T. A., Walters, T. L., & Root, K. V. (2013). A multi-scale spatial analysis of native and exotic plant species richness within a mixed-disturbance oak savanna landscape. Environmental Management, 52, 581–594.
Selya, A. S., Rose, J. S., Dierker, L. C., Hedeker, D., & Mermelstein, R. J. (2012). A practical guide to calculating Cohen’s f2, a measure of local effect size, from PROC MIXED. Frontiers in Psychology, 3, 111.
Siefert, A. (2012). Spatial patterns of functional divergence in old-field plant communities. Oikos, 112, 907–914.
Simberloff, D., & Von Holle, B. (1999). Positive interactions of nonindigenous species: Invasional meltdown? Biological Invasions, 1, 21–32.
Snell Taylor, S. J., Evans, B. S., White, E. P., & Hurlbert, A. H. (2018). The prevalence and impact of transient species in ecological communities. Ecology, 99, 1825–1835.
Sperry, K. P., Hilfer, H., Lane, I., Petersen, J., Dixon, P. M., & Sullivan, L. L. (2019). Species diversity and dispersal traits alter biodiversity spillover in reconstructed grasslands. Journal of Applied Ecology, 56, 2216–2224.
Spiegelman, C., & Gates, T. J. (2005). Post hoc quantile test for one-way analysis of variance using a double bootstrap method. Transportation Research Record, 1908, 19–25.
Stohlgren, T. J., Guenther, D. A., Evangelista, P. H., & Alley, N. (2005). Patterns of plant species richness, rarity, endemism, and uniqueness in an arid landscape. Ecological Applications, 15, 715–725.
Symonds, J. E., & Pither, J. (2012). Multi-scale analyses of exotic and native plant species diversity within Canada’s endangered antelope-brush ecosystem. Plant Ecology, 213, 1263–1275.
Taft, J. B. (2020). Do early trends in oak barrens fire treatment predict later outcomes? Insights from three decades of vegetation monitoring. Fire Ecology, 16, 23.
Tetetla-Rangel, E., Dupuy, J. M., Hernández-Stefanoni, J. L., & Hoekstra, P. H. (2017). Patterns and correlates of plant diversity differ between common and rare species in a neotropical dry forest. Biodiversity and Conservation, 26, 1705–1721.
Tilman, D., Reich, P. B., & Knops, J. M. H. (2006). Biodiversity and ecosystem stability in a decade-long grassland experiment. Nature, 441, 629–632.
Tomasetto, F., Duncan, R. P., & Hulme, P. E. (2019). Resolving the invasion paradox: Pervasive scale and study dependence in the native-alien species richness relationship. Ecology Letters, 22, 1038–1046.
Urban, D., Goslee, S., Pierce, K., & Lookingbill, T. (2002). Extending community ecology to landscapes. Ecoscience, 9, 200–212.
Valencia, E., de Bello, F., Galland, T., et al. (2020). Synchrony matters more than species richness in plant community stability at a global scale. Proceedings of the National Academy of Sciences (USA), 117, 24345–24351.
Vilà, M., Pino, J., & Font, X. (2007). Regional assessment of plant invasions across three different habitat types. Journal of Vegetation Science, 18, 35–42.
Wainwright, C. E., Staples, T. L., Charles, L. S., Flanagan, T. C., Lai, H. R., Loy, X., Reynolds, V. A., & Mayfield, M. M. (2018). Links between community ecology theory and ecological restoration are on the rise. Journal of Applied Ecology, 55, 570–581.
Wang, J., Wang, Y., & Yu, S. (2010). Relationships between diversity and compositional stability in experimental grassland communities exposed to drought stress. Community Ecology, 11, 105–112.
Xu, Q., Yang, X., Yan, Y., Wang, S., Loreau, M., & Jiang, L. (2021). Consistently positive effect of species diversity on ecosystem, but not population, temporal stability. Ecology Letters, 24, 2256–2266.
Yang, H., Jiang, L., Li, L., Li, A., Wu, M., & Wan, S. (2012). Diversity-dependent stability under mowing and nutrient addition: Evidence from a 7-year grassland experiment. Ecology Letters, 15, 619–626.
Acknowledgements
We thank Jordan Penkava and Renee Dollard for help with fieldwork in 2018 and Ashley Fink and Liz Stahl in 2021; Josh Brenwell for GIS support and preparing Fig. 1; Lindsay Chiquoine for programming generalized linear mixed models; and the editor and two anonymous reviewers for helpful comments on the manuscript.
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Metroparks Toledo funded this study through a contract to Natural Resource Conservation LLC.
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All authors contributed to the study conception and design; KSM, TLW, and SRA collected the data; SRA analyzed the data and wrote the manuscript; all authors edited and approved the manuscript drafts.
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Abella, S.R., Menard, K.S., Schetter, T.A. et al. Relationships of community diversity with distributions of rare species, non-native plants, and compositional stability in a temperate forest–open habitat landscape. COMMUNITY ECOLOGY 24, 21–33 (2023). https://doi.org/10.1007/s42974-023-00138-6
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DOI: https://doi.org/10.1007/s42974-023-00138-6