使用机器学习量化贻贝幼虫沉降的方法评估防污表面。

IF 2 3区生物学 Q3 BIOTECHNOLOGY & APPLIED MICROBIOLOGY

Biofouling Pub Date : 2025-09-01 Epub Date: 2025-07-24 DOI:10.1080/08927014.2025.2534051

Thomas B LeFevre, Joseph D Daddona, Wilaiwan Chouyyok, Gordon King, Samuel M Pennell, Andrew E Plymale, Stony Akins, Lance W Miller, Navaj Nune, Clare N Hermanson, George T Bonheyo, Curtis Larimer, R Shane Addleman

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引用次数: 0

摘要

防污涂料的开发需要大量的性能测试。防止水生幼虫沉降的涂层引起了人们的兴趣，因为许多形式的大污染始于幼虫阶段。然而，现场测试既耗时又难以控制。本文报道了一种筛选工具，即蚌类幼虫沉降法（SLAM），用于在现场测试之前选择材料。这种方法需要使用高密度的贻贝幼虫，让它们在淹没的测试表面上定居。然后对定居的幼虫进行量化，以提供防污性能的衡量标准。SLAM测试只在配方上有细微差别的涂层。为了有效地量化密集的幼虫沉降，研究人员开发了一种自动计数方法，该方法结合了两种分析：颜色阈值识别幼虫团块，机器学习算法识别非团块的幼虫。这种自动化的“混合”方法与人工计数一样有效，但时间很短。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Evaluation of antifouling surfaces using a method that employs mussel larvae settlement quantified by machine learning.

Antifouling coating development requires extensive performance testing. Coatings that prevent aquatic larval settlement are of interest because many forms of macrofouling begin at the larval stage. However, field testing can be time consuming and poorly controlled. Herein is reported a screening tool, Settlement of Larvae Assay using Mussels (SLAM), for down-selecting materials prior to field testing. The method entails using a dense concentration of mussel larvae that are allowed to settle on submerged test surfaces. Settled larvae are then quantified to provide a measure of antifouling performance. The SLAM test differentiated coatings with only slight differences in formulation. To enable efficient quantification of dense larvae settlement, an automated counting method was developed that combines two analyses: a color thresholding identifies larvae clumps, and a machine learning algorithm identifies non-clumped larvae. This automated 'hybrid' approach rapidly quantifies settled larvae as effectively as manual counting but in a fraction of the time.

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来源期刊

Biofouling 生物-海洋与淡水生物学

CiteScore

5.00

自引率

7.40%

发文量

审稿时长

1.7 months

期刊介绍： Biofouling is an international, peer-reviewed, multi-discliplinary journal which publishes original articles and mini-reviews and provides a forum for publication of pure and applied work on protein, microbial, fungal, plant and animal fouling and its control, as well as studies of all kinds on biofilms and bioadhesion. Papers may be based on studies relating to characterisation, attachment, growth and control on any natural (living) or man-made surface in the freshwater, marine or aerial environments, including fouling, biofilms and bioadhesion in the medical, dental, and industrial context. Specific areas of interest include antifouling technologies and coatings including transmission of invasive species, antimicrobial agents, biological interfaces, biomaterials, microbiologically influenced corrosion, membrane biofouling, food industry biofilms, biofilm based diseases and indwelling biomedical devices as substrata for fouling and biofilm growth, including papers based on clinically-relevant work using models that mimic the realistic environment in which they are intended to be used.