MusselCF 是一个用户友好型工具箱，用于估算悬浮水产养殖中贻贝的生理碳足迹

IF 3.6 2区农林科学 Q2 AGRICULTURAL ENGINEERING

Aquacultural Engineering Pub Date : 2024-04-10 DOI:10.1016/j.aquaeng.2024.102415

Manuel Pájaro , Isabel Fuentes-Santos , Uxío Labarta , Antonio A. Alonso , X. Antón Álvarez-Salgado

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引用次数: 0

摘要

在过去十年中，人们对海洋双壳贝类水产养殖的潜在二氧化碳封存作用的兴趣与日俱增。然而，在涉及哪些生物过程以及如何估算它们对双壳类水产养殖碳足迹的贡献方面仍存在一些争议。这项研究考虑了与贝肉和贝壳生长、钙化、呼吸、粪便排泄和氨排泄相关的溶解无机碳、二氧化碳和碱度通量，同时还考虑了与这些过程相关的 RDOC 产量。我们根据贻贝的净生产 DEB 生长模型开发了一种算法，用于动态估算这些通量。我们用 Python 实现了这一模型，并创建了一个具有图形用户界面的工具箱。该工具箱允许在播种日期、苗种大小和养殖长度方面选择不同的养殖策略，从而分析水产养殖管理的碳足迹及其对海水碳酸盐化学的影响。

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MusselCF, a user-friendly toolbox to estimate the physiological carbon footprint of mussels in suspended aquaculture

Interest on the potential CO₂ sequestration of marine bivalve aquaculture has increased during the last decade. However, there is still some controversy about which biological processes are involved and how to estimate their contribution to the carbon footprint of bivalve aquaculture. This work considers the dissolved inorganic carbon, CO₂ and alkalinity fluxes linked to flesh and shell growth, calcification, respiration, faeces egestion, and ammonia excretion, accounting also for the RDOC production associated to these processes. We have developed an algorithm for a dynamic estimation of these fluxes based on a net production DEB growth model for mussels. The resulting model has been implemented in Python to create a toolbox with a graphical user interface. This toolbox allows the selection of different culture strategies, in terms of seeding date, seed size and culture length, and consequently analyzes the carbon footprint and impact on the carbonate chemistry of seawater of aquaculture management.

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来源期刊

Aquacultural Engineering 农林科学-农业工程

CiteScore

8.60

自引率

10.00%

发文量

审稿时长

>24 weeks

期刊介绍： Aquacultural Engineering is concerned with the design and development of effective aquacultural systems for marine and freshwater facilities. The journal aims to apply the knowledge gained from basic research which potentially can be translated into commercial operations. Problems of scale-up and application of research data involve many parameters, both physical and biological, making it difficult to anticipate the interaction between the unit processes and the cultured animals. Aquacultural Engineering aims to develop this bioengineering interface for aquaculture and welcomes contributions in the following areas: – Engineering and design of aquaculture facilities – Engineering-based research studies – Construction experience and techniques – In-service experience, commissioning, operation – Materials selection and their uses – Quantification of biological data and constraints