The rhythm of savanna patch dynamics

2007 | journal article; research paper. A publication with affiliation to the University of Göttingen.

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​The rhythm of savanna patch dynamics​
Meyer, K. M. ; Wiegand, K. ; Ward, D.   & Moustakas, A. ​ (2007) 
Journal of Ecology95(6) pp. 1306​-1315​.​ DOI: https://doi.org/10.1111/j.1365-2745.2007.01289.x 

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Authors
Meyer, Katrin M. ; Wiegand, Kerstin ; Ward, David ; Moustakas, Aristides 
Abstract
1. Patch dynamics is a new, potentially unifying mechanism for the explanation of tree-grass coexistence in savannas. In this scale-explicit paradigm, savannas consist of patches in which a cyclical succession between woody and grassy dominance proceeds spatially asynchronously. The growing ecological and economic problem of shrub encroachment is a natural transient phase in this cycle. 2. An important step towards understanding patterns at the landscape scale is achieved by investigating mechanisms at a smaller scale. We developed the spatially explicit individual-based simulation model SATCHMO to test the null hypothesis that cyclical succession cannot emerge from a realistic patch scale simulation model of the population dynamics of savanna woody species. 3. We calculated the partial temporal autocorrelation coefficient for 100 simulated time series of shrub cover over 500 years for time lags of up to 200 years to establish the existence and duration of successional cycles. We found a significant positive autocorrelation indicating the existence of cycles with a typical duration of about 33 years. 4. The shrub size frequency distributions over the course of a cycle showed shifts from dominance of small shrub sizes towards larger sizes during the increasing phase of a cycle and the reverse in the declining phase. This supports the three phase explanation as follows: (i) an initial phase when spatially and temporally overlapping favourable conditions lead to mass recruitment of shrubs; (ii) a build-up phase when the shrub cohort grows; and (iii) a break-down phase when increased competition due to crowding and unfavourable conditions lead to the break-down of the shrub cohort. The frequency distribution of shrub age at death over 10 simulations was also in agreement with this explanation. 5. We investigated the relationship between shrub cover, annual precipitation and time-lagged shrub cover to identify the driver of the cyclical successions. More than 90{\%} of the variation in shrub cover was explained by shrub cover of the previous year, precipitation, and their interaction. 6. With the demonstration of precipitation-driven cyclical succession at the patch scale, we show that the mechanistic, temporal component of patch dynamics can be used to explain tree-grass coexistence in semi-arid savannas.
Issue Date
2007
Journal
Journal of Ecology 
Organization
Fakultät für Forstwissenschaften und Waldökologie ; Büsgen-Institut ; Abteilung Ökosystemmodellierung 
ISSN
0022-0477
Language
English
Subject(s)
Acacia mellifera; Cyclical succession; Individual-based simulation model; Patch scale; Scale; Shrub encroachment; Size-frequency distributions; Temporal autocorrelation; Tree-grass coexistence

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