Multifractal growth in periphyton communities

被引:8
作者
Ariel Saravia, Leonardo [1 ]
Giorgi, Adonis [2 ]
Momo, Fernando [1 ]
机构
[1] Univ Nacl Gen Sarmiento, Inst Ciencias, RA-1613 Buenos Aires, DF, Argentina
[2] Univ Nacl Lujan, CONICET, Depto Ciencias Basicas, RA-6700 Lujan, Argentina
关键词
SPECIES-AREA CURVES; GENERALIZED DIMENSIONS; PATTERN-FORMATION; DIVERSITY; CRITICALITY; SCALE; INTERMITTENCY; DISTRIBUTIONS; DISTURBANCE; DYNAMICS;
D O I
10.1111/j.1600-0706.2011.20423.x
中图分类号
Q14 [生态学(生物生态学)];
学科分类号
071012 ; 0713 ;
摘要
Periphyton is an aquatic community composed by algae, bacteria, fungi, and other microorganisms that can develop a complex architecture comparable to tropical forests. We analyzed the spatial pattern of a periphyton community along a succession developed in experimental tanks. Our aim was to identify regularities that may help us to explain the patchiness of this community. Therefore, we estimated the spatial pattern of periphyton biomass using a non-destructive image analysis technique to obtain a temporal series of the spatial distribution. These were analyzed using multifractal techniques. Multifractals are analogous to fractals but they look at the geometry of quantities instead of the geometry of pattern. To use these techniques the object of study must show scale invariance and then can be characterized by a spectra of fractal dimensions. Self-organization describes the evolution of complex structures that emerge spontaneously driven internally by variations of the system itself. The spatial distribution of biomass showed scale invariance at all stages of succession and as the periphyton developed in a homogeneous landscape, in a demonstration of self-organized behavior. Self-organization to a critical state (SOC) is presented in the complex systems literature as a general explanation for scale invariance in nature. SOC requires a mechanism where the history of past events in a place influence the actual dynamics, this was termed ecological memory. The scale invariance was found from the very beginning of the succession thus self-organized criticality is a very improbable explanation for the pattern because there would be not enough time for the build-up of ecological memory. Positive interactions between algae and bacteria, and the existence of different spatial scales of colonization and growth are the likely causes of this pattern. Our work is a demonstration of how large scale patterns emerge from local biotic interactions.
引用
收藏
页码:1810 / 1820
页数:11
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