Aquaponics model specific to South African conditions

South African Journal of Agricultural Extension (SAJAE) Pub Date : 2019-04-03 DOI:10.17159/2413-3221/2019/V47N1A491

Ntobeko Mchunu, G. Lagerwall, A. Senzanje

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引用次数: 5

Abstract

Aquaponics is the integration of aquaculture (fish) and hydroponic culture (plants) as one system. Aquaponics requires a sound simultaneous understanding of two agricultural ecosystems (fish and plants) in order to have a viable system. Modelling and model development is sacrosanct in systems where productivity is uncertain or complex. The study was conducted in 2016 to collect aquaponics information in the Republic of South Africa (RSA) using an online survey questionnaire to determine local aquaponics uses, management and distribution. A total of 44 aquaponics operators were captured within three months (September-November) in 2016. In this study, it was shown and concluded that most aquaponics practitioners in RSA do not have adequate knowledge and skills in aquaponics production and management, and that development of the localised aquaponics model is important for South Africa. As a result, the aim of this study was to develop a model that is more specific to South African conditions in order to help South Africans to have a better opportunity to establish and operate aquaponic systems. This study was designed as a mixed approach combining different methods and sources of data to develop the model. Unified Modelling Language (UML), Microsoft excel, an online survey, observations, structured and unstructured interviews and content data were used. The developed model was able to predict the main aquaponics inputs variables, namely fish stocking density, daily fish feed, and required planting area. The fit for each of these variables was good to average with R=0.7477, 0.6957, and 0.4313 respectively. There were no significant differences (P<0.05) between the observed and simulated data for all variables (fish stocking density, daily fish and planting area variables). Therefore, it was concluded that this model can be adopted by aquaponics practitioners in RSA and extension officers or facilitators as an aquaponics start-up platform. Keywords: Fish stocking density, daily fish feed, plant growing area, aquaponics model

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南非特有的水培模式

水培是水产养殖(鱼)和水培(植物)作为一个系统的整合。鱼菜共生需要同时了解两种农业生态系统(鱼和植物)，以便有一个可行的系统。在生产力不确定或复杂的系统中，建模和模型开发是神圣不可侵犯的。该研究于2016年进行，通过在线调查问卷收集南非共和国(RSA)的鱼菜共生信息，以确定当地鱼菜共生的使用、管理和分布。在2016年9月至11月的三个月内，共捕获了44名鱼菜共生操作员。在这项研究中，研究表明并得出结论，RSA的大多数鱼菜共生从业者在鱼菜共生生产和管理方面缺乏足够的知识和技能，发展本地化的鱼菜共生模式对南非很重要。因此，本研究的目的是开发一个更适合南非条件的模型，以帮助南非人有更好的机会建立和操作水培系统。本研究设计为混合方法，结合不同的方法和数据来源来开发模型。使用统一建模语言(UML)、Microsoft excel、在线调查、观察、结构化和非结构化访谈以及内容数据。所建立的模型能够预测鱼养密度、日饲料和所需种植面积等主要鱼养投入变量。每个变量的拟合度都很好，接近平均值，R分别为0.7477、0.6957和0.4313。在鱼类放养密度、日鱼量和种植面积等变量上，实测数据与模拟数据差异均不显著(P<0.05)。因此，该模型可被RSA的鱼菜共生从业者和推广人员或促进者采用，作为鱼菜共生创业平台。关键词:鱼类放养密度，日饲料，植物种植面积，水培模型

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来源期刊

South African Journal of Agricultural Extension (SAJAE)

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