Difference between revisions of "Tyszka & Topa 2005"

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[[Image:Paleobiology.cover.gif|thumb|right|120px| <font size="1">[http://paleobiol.geoscienceworld.org/ Paleobiology]</font size>]]

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[http://paleobiol.geoscienceworld.org/ Paleobiology], 2005, Vol. 31, No. 3, pp. 522–537 - [http://www.ing.pan.pl/str_prac/Tyszka_J/3Tyszka.Topa.2005.Paleobiol.pdf '''PDF''']

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~~Paleobiology, 2005, Vol. 31, No. 3, pp. 522–537 - [http://www.ing.pan.pl/str_prac/J_Tyszka/3Tyszka.Topa.2005.Paleobiol.pdf '''PDF''']~~

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~~[[Image:Paleobiology.cover.gif]]~~

== A new approach to modeling of foraminiferal shells ==

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Abstract. —The emergence of shell forms in the growth of foraminifera is an essential problem in the morphogenesis of these microorganisms. We present a model of foraminiferal shells that applies a moving-reference system. Previous models have referred to fixed-reference axes and have neglected apertures. Our model focuses on real morphologic characteristics and follows stepwise natural biological processes. It introduces apertures based on minimization of the local communication path and applies three parameters, which are either predetermined or selected at random from given ranges. Expression of stochastic parameters mimics phenotypic variability of a shell. We also present a detailed description of the method with examples of simulated shells and the first step toward analyses of the theoretical morphospace. The morphospace is divided into certain regions (phases) separated by transitional planes (phase transitions). Further prospects for foraminiferal modeling, which should focus on more in-depth models based on realistic intracellular dynamics, are also presented.

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'''Abstract'''. —The emergence of shell forms in the growth of [[foraminifera]] is an essential problem in the morphogenesis of these microorganisms. We present a model of foraminiferal [[SHELL|shells]] that applies a moving-reference system. Previous models have referred to fixed-reference axes and have neglected apertures. Our model focuses on real morphologic characteristics and follows stepwise natural biological processes. It introduces apertures based on minimization of the local communication path and applies three parameters, which are either predetermined or selected at random from given ranges. Expression of stochastic parameters mimics phenotypic variability of a shell. We also present a detailed description of the method with examples of simulated shells and the first step toward analyses of the theoretical morphospace. The morphospace is divided into certain regions (phases) separated by transitional planes (phase transitions). Further prospects for foraminiferal modeling, which should focus on more in-depth models based on realistic intracellular dynamics, are also presented.

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Difference between revisions of "Tyszka & Topa 2005"

Latest revision as of 09:17, 26 February 2008

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-|  [[Foraminifera]]  |  [[VirtuaLab]]   |    [[BIBLIOGRAPHY]]   | [[OUR PUBLICATIONS]] |
+|  [[Foraminifera]]  |  [[VirtuaLab]]   |    [[BIBLIOGRAPHY]]   | [[OUR PUBLICATIONS|VirtuaLab PUBLICATIONS]] |
+[[Image:Paleobiology.cover.gif|thumb|right|120px| <font size="1">[http://paleobiol.geoscienceworld.org/ Paleobiology]</font size>]]
+[http://paleobiol.geoscienceworld.org/ Paleobiology], 2005, Vol. 31, No. 3, pp. 522–537 - [http://www.ing.pan.pl/str_prac/Tyszka_J/3Tyszka.Topa.2005.Paleobiol.pdf '''PDF''']
-Paleobiology, 2005, Vol. 31, No. 3, pp. 522–537 - [http://www.ing.pan.pl/str_prac/J_Tyszka/3Tyszka.Topa.2005.Paleobiol.pdf '''PDF''']
-[[Image:Paleobiology.cover.gif]]
 == A new approach to modeling of foraminiferal shells ==
@@ Line 15: / Line 22: @@
-Abstract. —The emergence of shell forms in the growth of foraminifera is an essential problem in the morphogenesis of these microorganisms. We present a model of foraminiferal shells that applies a moving-reference system. Previous models have referred to fixed-reference axes and have neglected apertures. Our model focuses on real morphologic characteristics and follows stepwise natural biological processes. It introduces apertures based on minimization of the local communication path and applies three parameters, which are either predetermined or selected at random from given ranges. Expression of stochastic parameters mimics phenotypic variability of a shell. We also present a detailed description of the method with examples of simulated shells and the first step toward analyses of the theoretical morphospace. The morphospace is divided into certain regions (phases) separated by transitional planes (phase transitions). Further prospects for foraminiferal modeling, which should focus on more in-depth models based on realistic intracellular dynamics, are also presented.
+'''Abstract'''. —The emergence of shell forms in the growth of [[foraminifera]] is an essential problem in the morphogenesis of these microorganisms. We present a model of foraminiferal [[SHELL|shells]] that applies a moving-reference system. Previous models have referred to fixed-reference axes and have neglected apertures. Our model focuses on real morphologic characteristics and follows stepwise natural biological processes. It introduces apertures based on minimization of the local communication path and applies three parameters, which are either predetermined or selected at random from given ranges. Expression of stochastic parameters mimics phenotypic variability of a shell. We also present a detailed description of the method with examples of simulated shells and the first step toward analyses of the theoretical morphospace. The morphospace is divided into certain regions (phases) separated by transitional planes (phase transitions). Further prospects for foraminiferal modeling, which should focus on more in-depth models based on realistic intracellular dynamics, are also presented.
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+© 2006 [http://www.paleosoc.org/ Palentological Society]