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portada Macroevolutionary Systematics of Streptotrichaceae of the Bryophyta: Application to Ecosystem Thermodynamic Stability, Edition 2 (in English)
Type
Physical Book
Author
Publisher
Language
English
Pages
244
Format
Paperback
Dimensions
28.0 x 21.6 x 1.3 cm
Weight
0.58 kg.
ISBN13
9781987457537
Edition No.
2
Categories

Macroevolutionary Systematics of Streptotrichaceae of the Bryophyta: Application to Ecosystem Thermodynamic Stability, Edition 2 (in English)

Richard H. Zander (Author) · Createspace Independent Publishing Platform · Paperback

Macroevolutionary Systematics of Streptotrichaceae of the Bryophyta: Application to Ecosystem Thermodynamic Stability, Edition 2 (in English) - Zander, Richard H.

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Synopsis "Macroevolutionary Systematics of Streptotrichaceae of the Bryophyta: Application to Ecosystem Thermodynamic Stability, Edition 2 (in English)"

The Second Edition expands on the use of macroevolutionary analysis in mitigation of the effects of severe Climate Change on ecosystems. Biological systematics is the key to understanding and modeling the mechanisms of the present climate and biodiversity crisis. Genera are the basic dynamic units of ecosystems. Healthy ecosystems have many dissilient (radiative) genera. These each have a number of species or short lineages descendant from a core progenitor species. A new moss family, Streptotrichaceae, is carved from the larger Pottiaceae, in part, on the basis of heretofore ignored traits, and demonstrates a complex dissilient structure. Sequential Bayesian analysis provides a means of determining optimal estimation of order and direction of evolution in a lineage. The Streptotrichaceae is supported by 130 informational bits, which include postulated missing links. The 28 species of the family are supported individually by 113 bits in the range (2-)3-5(-11) bits per species. There are 4 major scale-free networks totaling 51 bits. The contribution to ecosystem health by various taxa may now be compared by this metric of information theory. Healthy ecosystems have multiple dissilient genera, which are modeled as hubs in scale-free networks. These networks in nature provide evolutionary redundancy through banking of taxa closely related to the critical and usually generalist core species and thus each other. Scale-free networks become small-world networks in the context of ecosystems wherein redundancy of habitat exploitation by similar species is common. Healthy ecosystems buffer and stabilize pathways of entropic increase, avoiding rapid energy flush. Ecosystems with more evolutionary and ecologic redundancy survive better in competition with other ecosystems and against catastrophes of rapid thermodynamic disequilibria. Agents of the African savanna (humankind) have vigorously extended this rather specialized ecosystem inappropriately worldwide. Effecting a return to natural small-world networks is a goal that should be investigated.

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