Abrupt population changes in treeline ecotones along smooth gradients
Authored by Thorsten Wiegand, Emilia Gutierrez, J Julio Camarero, Nadja Ruger
Date Published: 2006
DOI: 10.1111/j.1365-2745.2006.01135.x
Sponsors:
European Union
UFZ-Centre for Environmental Research
Platforms:
No platforms listed
Model Documentation:
Other Narrative
Flow charts
Mathematical description
Model Code URLs:
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Abstract
1 We developed a spatially explicit and individual-based simulation
model describing the dynamics of tree populations across treeline
ecotones. Our aims were to identify minimal factors and processes able
to generate treeline types with abrupt vs. smooth transitions in
different variables (tree height, age, density), to investigate the role
of positive feedback in pattern generation, and to determine why
krummholz appears at some but not all treelines. We hypothesized that a
different balance between smooth growth and mortality gradients across
the treeline ecotone could account for differences between commonly
observed treeline types.
2 The model contained only processes and factors regarded as essential
for producing a treeline ecotone and was parameterized with an
extensive, individual-based data set from Pinus uncinata treelines in
the Spanish Pyrenees. However, parameters expected to influence treeline
type were systematically varied.
3 The simple model was able to generate major treeline types differing
in abruptness and krummholz abundance. The most important factors
determining treeline types were the relative strength of growth and
mortality gradients, followed by facilitation strength, whereas
demographic parameters accounted for more subtle differences.
4 Only certain combinations of growth inhibition, mortality and
facilitation allowed for the emergence of certain treeline types
characterized by contrasting abruptness values and the presence or
absence of krummholz. High krummholz densities emerged only under
positive feedback and strongly increasing growth inhibition across the
ecotone. Abruptness in adult tree density was positively correlated with
facilitation strength and growth inhibition. By contrast, treelines with
abrupt height transitions occurred only where both low growth inhibition
and a strongly increasing mortality occurred across the ecotone.
5 Our analysis suggests that treeline features are not arbitrary but
that there is a clear signal in the pattern which allows for inference
of the underlying processes. Our approach of a systematic comparison of
model predictions and various observed patterns can be widely applied
for testing hypotheses on the functioning of ecological systems and for
deriving specific questions for further investigations in the field.
Tags
pattern
Model
growth
Climate-change
Forest
Community dynamics
Spanish central pyrenees
Glacier-national-park
Alpine treeline
Tundra ecotone