Testing macroecological theories in cryptocurrency market: neutral models cannot describe diversity patterns and their variation

We develop an analysis of the cryptocurrency market borrowing methods and concepts from ecology. This approach makes it possible to identify specific diversity patterns and their variation, in close analogy with ecological systems, and to characterize the cryptocurrency market in an effective way. A...
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Autor*in:	Edgardo Brigatti [verfasserIn] Estevan Augusto Amazonas Mendes [verfasserIn]

Format:	E-Artikel
Sprache:	Englisch

Erschienen:	2022

Schlagwörter:	cryptocurrency market macroecological theories neutral model

Übergeordnetes Werk:	In: Royal Society Open Science - The Royal Society, 2015, 9(2022), 4
Übergeordnetes Werk:	volume:9 ; year:2022 ; number:4

Links:	Link aufrufen Link aufrufen Link aufrufen Journal toc

DOI / URN:	10.1098/rsos.212005

Katalog-ID:	DOAJ082697728

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author	Edgardo Brigatti
spellingShingle	Edgardo Brigatti misc cryptocurrency market misc macroecological theories misc neutral model misc Science misc Q Testing macroecological theories in cryptocurrency market: neutral models cannot describe diversity patterns and their variation
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topic_title	Testing macroecological theories in cryptocurrency market: neutral models cannot describe diversity patterns and their variation cryptocurrency market macroecological theories neutral model
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title	Testing macroecological theories in cryptocurrency market: neutral models cannot describe diversity patterns and their variation
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title_full	Testing macroecological theories in cryptocurrency market: neutral models cannot describe diversity patterns and their variation
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title_sort	testing macroecological theories in cryptocurrency market: neutral models cannot describe diversity patterns and their variation
title_auth	Testing macroecological theories in cryptocurrency market: neutral models cannot describe diversity patterns and their variation
abstract	We develop an analysis of the cryptocurrency market borrowing methods and concepts from ecology. This approach makes it possible to identify specific diversity patterns and their variation, in close analogy with ecological systems, and to characterize the cryptocurrency market in an effective way. At the same time, it shows how non-biological systems can have an important role in contrasting different ecological theories and in testing the use of neutral models. The study of the cryptocurrencies abundance distribution and the evolution of the community structure strongly indicates that these statistical patterns are not consistent with neutrality. In particular, the necessity to increase the temporal change in community composition when the number of cryptocurrencies grows, suggests that their interactions are not necessarily weak. The analysis of the intraspecific and interspecific interdependency supports this fact and demonstrates the presence of a market sector influenced by mutualistic relations. These latest findings challenge the hypothesis of weakly interacting symmetric species, the postulate at the heart of neutral models.
abstractGer	We develop an analysis of the cryptocurrency market borrowing methods and concepts from ecology. This approach makes it possible to identify specific diversity patterns and their variation, in close analogy with ecological systems, and to characterize the cryptocurrency market in an effective way. At the same time, it shows how non-biological systems can have an important role in contrasting different ecological theories and in testing the use of neutral models. The study of the cryptocurrencies abundance distribution and the evolution of the community structure strongly indicates that these statistical patterns are not consistent with neutrality. In particular, the necessity to increase the temporal change in community composition when the number of cryptocurrencies grows, suggests that their interactions are not necessarily weak. The analysis of the intraspecific and interspecific interdependency supports this fact and demonstrates the presence of a market sector influenced by mutualistic relations. These latest findings challenge the hypothesis of weakly interacting symmetric species, the postulate at the heart of neutral models.
abstract_unstemmed	We develop an analysis of the cryptocurrency market borrowing methods and concepts from ecology. This approach makes it possible to identify specific diversity patterns and their variation, in close analogy with ecological systems, and to characterize the cryptocurrency market in an effective way. At the same time, it shows how non-biological systems can have an important role in contrasting different ecological theories and in testing the use of neutral models. The study of the cryptocurrencies abundance distribution and the evolution of the community structure strongly indicates that these statistical patterns are not consistent with neutrality. In particular, the necessity to increase the temporal change in community composition when the number of cryptocurrencies grows, suggests that their interactions are not necessarily weak. The analysis of the intraspecific and interspecific interdependency supports this fact and demonstrates the presence of a market sector influenced by mutualistic relations. These latest findings challenge the hypothesis of weakly interacting symmetric species, the postulate at the heart of neutral models.
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title_short	Testing macroecological theories in cryptocurrency market: neutral models cannot describe diversity patterns and their variation
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