The use of marine aquaculture solid waste for nursery production of the salt marsh plants Spartina alterniflora and Juncus roemerianus

Joesting, Heather M.; Blaylock, Reginald B.; Biber, Patrick D.; Ray, Andrew J.

doi:10.1016/j.aqrep.2016.01.004

Cited by 33 publications

(21 citation statements)

References 25 publications

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“…This has led to an increased interest and/or move towards alternative water sources (e.g. brackish to highly saline water as well as seawater) and the use of euryhaline or saltwater fish, halophytic plants, seaweed and low salt-tolerant glycophytes (Joesting et al 2016). It is interesting to note that whilst the amount of saline in underground water is only estimated as 0.93% of world's total water resources at 12,870,000 km 3 , this is more than the underground freshwater reserves (10,530,000 km 3 ) which makes up 30.1% of all freshwater reserves (Appelbaum and Kotzen 2016).…”

Section: Maraponics and Haloponicsmentioning

confidence: 99%

Aquaponics: Alternative Types and Approaches

Kotzen

Emerenciano

Moheimani

et al. 2019

Aquaponics Food Production Systems

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Whilst aquaponics may be considered in the mid-stage of development, there are a number of allied, novel methods of food production that are aligning alongside aquaponics and also which can be merged with aquaponics to deliver food efficiently and productively. These technologies include algaeponics, aeroponics, aeroaquaponics, maraponics, haloponics, biofloc technology and vertical aquaponics. Although some of these systems have undergone many years of trials and research, in most cases, much more scientific research is required to understand intrinsic processes within the systems, efficiency, design aspects, etc., apart from the capacity, capabilities and benefits of conjoining these systems with aquaponics.

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Section: Maraponics and Haloponicsmentioning

confidence: 99%

Aquaponics: Alternative Types and Approaches

Kotzen

Emerenciano

Moheimani

et al. 2019

Aquaponics Food Production Systems

View full text Add to dashboard Cite

show abstract

“…Compared with freshwater aquaculture effluents, few studies have investigated the reuse of marine aquaculture effluents, especially the solids fraction (Joesting et al . ). A study conducted by Joesting et al .…”

Section: Reutilization Of Solidsmentioning

confidence: 97%

“…A study conducted by Joesting et al . () determined that marine aquaculture solid waste (biofloc solids collected from Pacific white shrimp and fish solids collected from spotted seatrout ( Cynoscion nebulosus ) could provide the essential nutrients required for Juncus roemerianus (a species of salt marsh plant commonly used in coastal restoration) growth. Similarly, the results reported by Boxman et al .…”

Section: Reutilization Of Solidsmentioning

confidence: 99%

Generation, characterization, perniciousness, removal and reutilization of solids in aquaculture water: a review from the whole process perspective

Bao

Zhu

Jin

et al. 2018

Reviews in Aquaculture

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The generation of solids by aquaculture activities has led to many problems in animal welfare, environmental quality, water treatment effects and public health, such as gill and intestinal damage, water eutrophication, system components blockages and antibiotics transfers through the food chain to human; thus, effective solid wastes management is very important. The purpose of this review is to summarize the sources, characterization methods, harmfulness, removal technologies and reutilization of solids in aquaculture water, including (i) different sources of solids, such as uneaten feed, feces and debris; (ii) solids characterization based on the general parameters, particle size distribution and chemical composition; (iii) the toxicity and detriment of solids to cultured species, the environment, aquaculture system components and human health; (iv) Solids removal, effluents solids thickening and source control techniques for better solids management; and (v) various methods for the reutilization of aquacultural solid wastes for resource value-adding. In addition to these five specific objectives, the merits and drawbacks of each method or technology and future research priorities are discussed. The present review provides an understanding of the role played by solids in aquaculture water and provides guidance for aquacultural solid wastes precision management, aquaculture practices and technological developments. Thus, solids management can be carried out based on this guidance to improve animal welfare and the stability of water treatment systems, reduce harm to the environment and public health, and enable the development of aquaculture in a sustainable way.

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“…Similarly, Joesting et al . (2016) evaluated the effect of biosolids on growth and production from intensive biofloc marine shrimp ( L. vannamei ) aquaculture system of two halophytes, Spartina alterniflora and Juncus roemerianus , commonly used for coastal restoration on the Atlantic and Gulf of México. In China, S. alterniflora had been used as animal fodder, green manure, fish feed and food additive (Chung 2006), but specifically in cattle raising, it has been shown that 25% of the total diet can be substituted with this plant (Qin et al .…”

Section: State Of the Art Of Integrated Shrimp–plant Culturesmentioning

confidence: 99%

Co‐culture of shrimp with commercially important plants: a review

Fierro-Sañudo

Páez‐Osuna

2020

Reviews in Aquaculture

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Shrimp farming is one of the most important worldwide developed sectors; however, this development has induced a series of negative environmental impacts. One strategy to reduce these impacts is the integration or co‐culture of shrimp farming with agriculture. The integration of shrimp farming with commercial plants has been carried out with the objective of minimizing the environmental impact through the use of biosolids and effluents enriched with nutrients, taking advantage of available resources and generating greater income for producers. The aim of this review was to present the state of the art of integrated shrimp–vascular plant culture, focus on those plants with commercial interest and describe the different forms of integration. We reviewed over 158 studies dealing with integrated shrimp–plant cultures at different salinities, as well as the influence of salinity in the performance of both biological components. Plants suitable for the integration with shrimp farming are also examined, including advantages and disadvantages. Finally, several features that require further research are identified.

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The use of marine aquaculture solid waste for nursery production of the salt marsh plants Spartina alterniflora and Juncus roemerianus

Cited by 33 publications

References 25 publications

Aquaponics: Alternative Types and Approaches

Aquaponics: Alternative Types and Approaches

Generation, characterization, perniciousness, removal and reutilization of solids in aquaculture water: a review from the whole process perspective

Co‐culture of shrimp with commercially important plants: a review

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