A foundation of ecology rediscovered: 100 years of succession on the William S. Cooper plots in Glacier Bay, Alaska

Buma, Brian; Bisbing, Sarah M.; Krapek, John; Wright, Glenn

doi:10.1002/ecy.1848

Cited by 45 publications

(55 citation statements)

References 46 publications

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“…For woody species and erect herbaceous plants, individuals were tracked through time; mosses and mat-forming species (e.g., Dryas) were mapped by area covered rather than tracked by individual, and cover was converted to individual count estimates via published methods (Buma et al 2017). For woody species and erect herbaceous plants, individuals were tracked through time; mosses and mat-forming species (e.g., Dryas) were mapped by area covered rather than tracked by individual, and cover was converted to individual count estimates via published methods (Buma et al 2017).…”

Section: Quadrat Scale (1 M 2 )mentioning

confidence: 99%

“…To test the idea that early nutrient limitation determined current trajectories, we compared carbon (C) and nitrogen (N) percentages from Buma et al (2017) to historical measures of Dryas coverage at the quadrat scale: the maximum number of Dryas individuals observed in a single year and average number of Dryas observed over all observations. We then also compared current Alnus percent coverage at the plot scale to N percentage to explore if current species composition is a better predictor of nitrogen.…”

Section: Plot Scale (707 M 2 )mentioning

confidence: 99%

“…2; Appendix S3: Fig. Three quadrats (Q1, Q7, and Q8) are Alnus dominated, one is Picea dominated (Q2, growing slightly off plot but extending completely over), and four are Salix dominated (Q3, Q4, Q5, and Q6 [Q6 has a high overstory component of Alnus; Buma et al 2017]). Three quadrats (Q1, Q7, and Q8) are Alnus dominated, one is Picea dominated (Q2, growing slightly off plot but extending completely over), and four are Salix dominated (Q3, Q4, Q5, and Q6 [Q6 has a high overstory component of Alnus; Buma et al 2017]).…”

Section: Quadrat Scale Successional Trajectoriesmentioning

confidence: 99%

“…We were specifically curious whether or not Cooper's original 1-m 2 quadrats, which were large enough for early successional communities (Buma et al 2017), were representative of the broader community surrounding the quadrats 100 yr later. We additionally used this network to test the utility of historic plant community sampling methodologies over the many stages of plant community development.…”

Section: Introductionmentioning

confidence: 99%

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100 yr of primary succession highlights stochasticity and competition driving community establishment and stability

Buma

Bisbing

Wiles

et al. 2019

Ecology

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The study of community succession is one of the oldest pursuits in ecology. Challenges remain in terms of evaluating the predictability of succession and the reliability of the chronosequence methods typically used to study community development. The research of William S. Cooper in Glacier Bay National Park is an early and well-known example of successional ecology that provides a long-term observational data set to test hypotheses derived from space-for-time substitutions. It also provides a unique opportunity to explore the importance of historical contingencies and as an example of a revitalized historical study system. We test the textbook successional trajectory in Glacier Bay and evaluate long-term plant community development via primary succession through extensive fieldwork, remote sensing, dendrochronological methods, and newly discovered data that fills in data gaps (1940s to late 1980s) in continuous measurement over 100+ years. To date, Cooper's quadrats do not support the classic facilitation model of succession in which a sequence of species interacts to form predictable successional trajectories. Rather, stochastic early community assembly and subsequent inhibition have dominated; most species arrived shortly after deglaciation and have remained stable for 50+ years. Chronosequence studies assuming prior composition are thus questionable, as no predictable species sequence or timeline was observed. This underscores the significance of assumptions about early conditions in chronosequences and the need to defend such assumptions. Furthermore, this work brings a classic study system in ecology up to date via a plot size expansion, new baseline biogeochemical data, and spatial mapping for future researchers for its second century of observation.

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Section: Quadrat Scale (1 M 2 )mentioning

confidence: 99%

Section: Plot Scale (707 M 2 )mentioning

confidence: 99%

Section: Quadrat Scale Successional Trajectoriesmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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100 yr of primary succession highlights stochasticity and competition driving community establishment and stability

Buma

Bisbing

Wiles

et al. 2019

Ecology

View full text Add to dashboard Cite

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“…space-for-time substitution that uses space as a proxy for time (Pickett 1989;Johnson & Miyanishi 2008), and temporally replicated vegetation surveys (Cooper 1923 and subsequent expeditions;Peet & Christensen 1980;Buma et al 2017). Based on numerous underlying assumptions, space-for time substitution has been applied in ecological modelling to infer past or future trajectories of ecological systems from contemporary spatial patterns.…”

Section: Succession and Disturbancementioning

confidence: 99%

Scale sensitivity of the relationship between alpha and gamma diversity along an alpine elevation gradient in central Nepal

Bhatta

Grytnes

Vetaas

2018

Journal of Biogeography

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Aim Components of scale, such as grain, focus and extent, influence the spatial patterns of alpha and gamma diversity and the relationships between them. We explored these scale relations by testing whether the gamma diversity and alpha diversity along an elevation gradient were related independent of scale and whether the elevational patterns of herbaceous and woody species richness were dependent on scale. Location Langtang National Park, Nepal. Methods We estimated alpha diversity (plot richness) for woody and herbaceous plant species along an alpine elevation gradient (3,900–5,000 m a.s.l.) in nested plots of 1 m2, 16 m2 and 100 m2 and gamma diversity (regional richness) from published sources. Generalized linear modelling was used to analyse alpha and gamma diversity and their correspondence at different grain sizes. Results Elevational trends of gamma and alpha diversity were significantly correlated for both woody and herbaceous species at all grain sizes. The concordance increased with increasing grain size and area for gamma diversity estimation, particularly for the monotonously decreasing elevational gamma and alpha diversity patterns of woody species. The hump‐shaped patterns of elevational gamma and alpha diversity for herbaceous species were also significantly correlated, but the concordance between the alpha diversity of herbaceous species and local gamma diversity was stronger. Elevational patterns of alpha diversity were coarsely consistent across grain sizes, although the patterns became more pronounced at larger grain sizes. Main conclusions The correspondence of elevational gamma and alpha diversity was largely scale invariant, implying that elevational and possibly other geographical diversity patterns can reliably be studied at different spatial scales. Nonetheless, the alpha diversity pattern was the least pronounced at fine grain size, particularly for woody life‐forms. This finding suggests that for large‐scale patterns such as elevational gradients at regional or continental scales, coarse grain sizes and large areas for gamma estimation are more appropriate.

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Functional diversity changes over 100 yr of primary succession on a volcanic island: insights into assembly processes

et al. 2018

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Changes in species diversity following volcanic eruptions have been studied extensively, but our knowledge on functional diversity and community assembly under such conditions is very limited. Here, we study the processes following the destruction of vegetation after a volcanic eruption. Specifically, we investigate (1) the temporal patterns of taxonomic and functional diversity over time since a previous eruption (alpha diversity) and beta diversity, (2) the temporal patterns of 26 individual traits (vegetative characteristics, plant taxa ecological preferences, and regenerative characteristics) providing more detailed information on species strategies at the initial and later stages of succession, and (3) the processes driving species assembly and whether they changed over time since the eruption an eruption. We analyzed data recorded during five floristic censuses that took place between 1911 and 2011, calculated alpha and beta facets of taxonomic and functional diversity and examined how community structure changed over time, using 26 functional characteristics, based on their ability to discern primary from later colonists, including longevity, growth form, Ellenberg's indicator values, seed production and weight, flower size and sex, pollination type, and dispersal mode. Null model analysis was used to test whether the observed functional diversity deviates from random expectations. Alpha diversity, both taxonomic and functional, increased over time after an eruption, while beta diversity did not display a clear trend. This finding indicates that mainly abiotic processes determine species assembly over time after an eruption (at least for the time span studied here), contrary to theoretical expectations. It is most interesting that, simultaneously, some aspects of diversity indicated the effect of biotic interactions (facilitation and competition) on the assembly of species a few years after an eruption. This finding implies a legacy effect, since a high percentage of perennial species was noticed in the assemblage right after the eruption, as well as the effect of the harsh environmental conditions on the assembly of the plant communities. In conclusion, our results indicate the role of legacy effects in succession (most probably through the survival of underground plant parts) and underline the importance of disturbance history in providing the context needed for understanding effects of past events on succession.

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A foundation of ecology rediscovered: 100 years of succession on the William S. Cooper plots in Glacier Bay, Alaska

Cited by 45 publications

References 46 publications

100 yr of primary succession highlights stochasticity and competition driving community establishment and stability

100 yr of primary succession highlights stochasticity and competition driving community establishment and stability

Scale sensitivity of the relationship between alpha and gamma diversity along an alpine elevation gradient in central Nepal

Functional diversity changes over 100 yr of primary succession on a volcanic island: insights into assembly processes

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