当前位置: X-MOL 学术Rev. Aquacult. › 论文详情
Our official English website, www.x-mol.net, welcomes your feedback! (Note: you will need to create a separate account there.)
Non‐invasive functional exploration techniques for bivalves with applications to pearl oyster Pinctada margaritifera
Reviews in Aquaculture ( IF 10.4 ) Pub Date : 2020-01-01 , DOI: 10.1111/raq.12409
Gilles Le Moullac 1 , Claude Soyez 1 , Pierre Lyonnard 1 , Sébastien Chabrier 2 , Léo Milhade 1 , Yannick Gueguen 3 , Benoit Beliaeff 1
Affiliation  

Non‐invasive functional exploration techniques can provide information on different aspects of general organism functioning and, unlike lethal or invasive techniques, allow individual organisms to be monitored for as long as necessary. For bivalves, a fairly wide variety of methods and instrumental means exist allowing physiology to be assessed on‐line while keeping animals alive and intact. The current range of non‐invasive techniques for bivalves consists of systems for measuring metabolic flows and valve activity, which can be used on bivalve molluscs for as long as an individual animal's characteristics (e.g. size) make this technically feasible. In this paper, we present some of these non‐invasive techniques with applications for pearl oyster and list other potentially promising techniques. We also focus on a unique method we developed specifically for to record the pearl rotation characteristics within pearl oysters. This article presents the state of the art in non‐invasive functional exploration techniques. We hope that the information provided here will be useful to physiologists of bivalve marine molluscs through the tools and applications presented here or other future approaches based on them.

中文翻译:

双壳类的非侵入性功能性勘探技术及其在珍珠牡蛎Pinctada margaritifera中的应用

非侵入性功能性探索技术可以提供有关一般生物体功能的不同方面的信息,并且与致死性或侵入性技术不同,可以在必要时对单个生物体进行监测。对于双壳类动物,存在各种各样的方法和仪器手段,可以在线评估生理学,同时保持动物的生命和完整。当前用于双壳类动物的非侵入性技术范围包括用于测量代谢流量和瓣膜活动的系统,只要单个动物的特征(例如体型)使其在技术上可行,就可以将其用于双壳类软体动物。在本文中,我们将介绍其中的一些非侵入性技术及其在牡蛎牡蛎中的应用,并列出其他潜在的有前途的技术。我们还专注于我们专门开发的一种独特方法,用于记录珍珠牡蛎中的珍珠旋转特征。本文介绍了非侵入性功能探索技术的最新状况。我们希望此处提供的信息通过此处介绍的工具和应用程序或基于它们的其他未来方法对双壳类海洋软体动物的生理学家有用。
更新日期:2020-01-01
down
wechat
bug