A model that predicts the attachment behavior of Ulva linza zoospores on surface topography

Christopher J. Long; James F. Schumacher; Paul A.C. Robinson II; John A. Finlay; Maureen E. Callow; James A. Callow; Anthony B. Brennan

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A model that predicts the attachment behavior of Ulva linza zoospores on surface topography

机译：在表面形貌上预测石鱼孢子附着行为的模型

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A predictive model for the attachment of spores of the green alga Ulva on patterned topographical surfaces was developed using a constant refinement approach. This 'attachment model' incorporated two historical data sets and a modified version of the previously-described Engineered Roughness Index. Two sets of newly-designed surfaces were used to evaluate the effect of two components of the model on spore settlement. Spores attached in fewer numbers when the area fraction of feature tops increased or when the number of distinct features in the design increased, as predicted by the model. The model correctly predicted the spore attachment density on three previously-untested surfaces relative to a smooth surface. The two historical data sets and two new data sets showed high correlation (R~2 = 0.88) with the model. This model may be useful for designing new antifouling topographies.

机译：使用恒定细化方法开发了预测藻类孢子附着在图案化地形表面上的预测模型。该“附件模型”结合了两个历史数据集和先前描述的工程粗糙度指数的修改版本。使用两组新设计的表面来评估模型的两个组件对孢子沉降的影响。如模型所预测的，当特征顶部的面积分数增加或设计中不同特征的数目增加时，孢子附着的数量减少。该模型正确地预测了相对于光滑表面的三个先前未经测试的表面上的孢子附着密度。两个历史数据集和两个新数据集与模型具有高度相关性（R〜2 = 0.88）。该模型对于设计新的防污地形可能有用。

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来源
《Biofouling》 |2010年第4期|P.411-419|共9页
作者
Christopher J. Long; James F. Schumacher; Paul A.C. Robinson II; John A. Finlay; Maureen E. Callow; James A. Callow; Anthony B. Brennan;
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作者单位

Department of Materials Science and Engineering, University of Florida, PO Box 116400, Gainsville, FL 32611-6400, USA;

Kimberly-Clark-Research and Engineering, Medical Devices, 1409 Holocomb Bridge Road, Roswell, Georgia 30076, USA;

Department of Materials Science and Engineering, University of Florida, PO Box 116400, Gainsville, FL 32611-6400, USA;

rnSchool of Biosciences, University of Birmingham, Birmingham B15 2TT, UK;

rnSchool of Biosciences, University of Birmingham, Birmingham B15 2TT, UK;

rnSchool of Biosciences, University of Birmingham, Birmingham B15 2TT, UK;

rnDepartment of Materials Science and Engineering, University of Florida, PO Box 116400, Gainsville, FL 32611-6400, USA;

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正文语种 eng
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关键词
engineered roughness index; sharklet AF?; recessed sharklet AF?; ulva; attachment model;

机译：工程粗糙度指数;鲨鱼AF？凹鲨鱼AF？乌尔瓦;依恋模型;

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专利

1. Anomalous settlement behavior of Ulva linza zoospores on cationic oligopeptide surfaces [J] . T. Ederth, P. Nygren, M.E. Pettitt, Biofouling . 2008,第3a4期

机译：阳离子小肽表面上的榆木游动孢子的异常沉降行为
2. Holographic microscopy provides new insights into the settlement of zoospores of the green alga Ulva linza on cationic oligopeptide surfaces [J] . Vater Svenja M., Finlay John, Callow Maureen E., Biofouling . 2015,第1a2期

机译：全息显微镜为阳离子寡肽表面上的绿藻Ulva linza游动孢子的沉降提供了新的见解
3. Conditioning of surfaces by macromolecules and its implication for the settlement of zoospores of the green alga Ulva linza [J] . Isabel Thome, Michala E. Pettitt, Maureen E. Callow, Biofouling . 2012,第5a6期

机译：大分子对表面的调节及其对绿藻Ulva linza游动孢子沉降的影响
4. Modeling and predicting ground surface topography on grinding chatter [C] . Cong Sun, Yansheng Deng, Dongxue Lan, CIRP Conference on Surface Integrity . 2018

机译：磨削聊天地面造型和预测地面地形
5. Surface analytical studies and theoretical modelling of defect behavior, surface topography and crack nucleation in fatigued materials [D] . Venkataraman, Gourishankar. 1990

机译：疲劳材料的缺陷行为，表面形貌和裂纹成核的表面分析研究和理论模型
6. The influence of surface energy on the wetting behaviour of the spore adhesive of the marine alga Ulva linza (synonym Enteromorpha linza) [O] . J.A Callow, M.E Callow, L.K Ista, 2005

机译：表面能对海藻Ulva linza（同义词Enteromorpha linza）孢子黏合剂润湿行为的影响
7. Settlement Behavior of Zoospores of Ulva linza During Surface Selection Studied by Digital Holographic Microscopy [O] . M. Heydt, M. E. Pettitt, X. Cao, 2012

机译：数字全息显微术研究的Ulva linza游动孢子在表面选择过程中的沉降行为
8. Evaluation of the Strength of Attachment of Enteromorpha Zoospores to Novel Polymer Surfaces [R] . Callow, J. A. , Callow, M. E. 2002

机译：浒苔Z孢子附着强度对新型聚合物表面的评价

A model that predicts the attachment behavior of Ulva linza zoospores on surface topography

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