Ecological disturbances: the good, the bad and the ugly
Sammanfattning
Abstract. This thesis focuses on the definitions, characterizations and quantifications of
ecological disturbances, as well as hypotheses on their impacts on biological communities.
The most prominent model on effects of disturbance on diversity is the Intermediate
Disturbance Hypothesis (IDH), which is utilized in management of national reserves, has
received over 3300 citations and has been corroborated by a multitude of studies from
terrestrial and aquatic systems. According to the predictions of the IDH, diversity is high at
intermediate levels of disturbance due to coexistence of competitors and colonizers. At low
levels of disturbance diversity will be low due to competitive exclusion and few species can
persist at high levels of disturbance. In an extension of the IDH, the Dynamic Equilibrium
Model (DEM) predicts that the effects of disturbance depend on the productivity of
communities, because at high growth rates a stronger disturbance is required to counteract
increased rates of competitive exclusion. The IDH and the DEM were tested in a field
experiment on effects of physical disturbance (scraping) and productivity (nutrient
availability) on hard-substratum assemblages in paper I, where the patterns predicted by the
IDH, but not the DEM, were observed. This outcome shows the importance of the nature of
productivity alterations, as the productivity treatment had a general positive effect on growth
rates but only marginal effects on the dominant species, thereby leaving rates of competitive
exclusion unaffected.
In paper II I tested another extension of the IDH, which predicts that smaller,
more frequent disturbances will have different effects on diversity compared to larger, less
frequent disturbances. In this experiment I used two different regimes of disturbance, small
and frequent vs. large and infrequent disturbances, while the overall rate (the product of area
and frequency) was kept equal for both regimes. At the site where the IDH was supported, the
regime with a large proportion of the area disturbed infrequently showed higher richness, due
to a stronger decrease of dominants, compared to the regime with a small proportion disturbed
frequently. In addition to these significant differences in diversity effects between different
disturbance regimes, it may also matter what agent of disturbance that is causing the damage.
In paper III I contrasted the effects of a physical disturbance (wave-action) to that of a
biological disturbance (grazing), as well as their respective interactions with productivity in a
multifactorial design tested on natural epilithic assemblages. The composition of assemblages
and the total species richness was significantly affected by physical disturbance and
interactively by biological disturbance and productivity. The algal richness was significantly
affected by productivity and biological disturbance, whereas the invertebrate richness was
affected by physical disturbance. The results show, for the first time, that biological
disturbance and physical disturbance interact differently with productivity due to differences
in the distribution and selectivity among disturbances.
In paper IV I investigate how the choice of diversity measure may impact the
outcomes of tests of the IDH, which, surprisingly, has not previously been discussed. This
was done by an extensive literature review and meta-analysis on published papers as well as
by two different approaches to mathematical modelling. Both models support the IDH when
biodiversity is measured as species richness, but not evenness. The meta-analysis showed that
two-thirds of the published studies in the survey present different results for different
diversity measures. Hence, the choice of diversity measure is vital for the outcome of tests of the IDH and related models.
Delarbeten
Paper I. Svensson, J. R., M. Lindegarth, M. Siccha, M. Lenz, M. Molis, M. Wahl, and H.
Pavia. 2007. Maximum species richness at intermediate frequencies of disturbance: Consistency among levels of productivity. Ecology 88:830-838. ::doi::10.1890/06-0976 Paper II. Svensson, J. R., M. Lindegarth, and H. Pavia. 2009. Equal rates of disturbance
cause different patterns of diversity. Ecology 90:496-505. ::doi::10.1890/07-1628.1 Paper III. Svensson, J. R., M. Lindegarth, and H. Pavia. 2010b. Physical and biological
disturbances interact differently with productivity: effects on floral and faunal
richness. Ecology 91:3069-3080. ::doi::10.1890/09-0671.1 Paper IV. Svensson, J. R., M. Lindegarth, P. R. Jonsson, and H. Pavia. The Intermediate
Disturbance Hypothesis predicts different effects on species richness and
evenness. Manuscript.
Examinationsnivå
Doctor of Philosophy
Universitet
University of Gothenburg. Faculty of Science
Institution
Department of Marine Ecology ; Institutionen för marin ekologi
Disputation
Fredagen den 19 november 2010 kl 15.00, på institutionen för Marin ekologi-Tjärnö, Hörsalen, Hättebäcksvägen, Tjärnö, Strömstad.
Datum för disputation
2010-11-19
E-post
robin.svensson@marecol.gu.se
Datum
2010-11-02Författare
Svensson, J. Robin
Nyckelord
Disturbance
Diversity
Publikationstyp
Doctoral Theses
ISBN
978-91-628-8200-6
Språk
eng