A Low-Tech Approach to Mobilize Nutrients from Organic Residues to Produce Bioponic Stock Solutions

Organic residues, as a nutrient source suitable of producing solutions for hydroponic crop production, have the potential to reduce the dependence on mineral fertilizers. Especially in remote and resource-constrained regions, organic residues might be the only option to produce hydroponic nutrient s...

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Bibliographic Details
Published inAgriculture (Basel) Vol. 14; no. 6; p. 928
Main Authors Heintze, Sebastian, Beckett, Marc, Kriem, Lukas Simon, Germer, Jörn, Asch, Folkard
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.06.2024
Subjects
Aqueous solutions
bioponics
Chemical oxygen demand
Crop production
Experiments
Fertilizers
Food security
Hydroponics
Micronutrients
Microorganisms
Mineral fertilizers
Mineralization
Nutrient solutions
Nutrients
organic residue reuse
Plant growth
plant nutrition
Potassium
Residues
soilless agriculture
Stocks
Germany
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Summary:Organic residues, as a nutrient source suitable of producing solutions for hydroponic crop production, have the potential to reduce the dependence on mineral fertilizers. Especially in remote and resource-constrained regions, organic residues might be the only option to produce hydroponic nutrient solutions. However, nutrient solutions made from organic residues, called bioponic solutions, are usually unbalanced in their nutrient composition, which leads to deficiencies and poor plant growth. This study aimed to experimentally develop a low-tech approach to produce bioponic stock solutions rich in NO[sub.3] [sup.−], P, and K, to create a balanced bioponic solution. The mixed bioponic solution contained 58 mg L[sup.−1] NH[sub.4] [sup.+]-N, 43 mg L[sup.−1] NO[sub.3] [sup.−]-N, 50 mg L[sup.−1] PO[sub.4] [sup.3−]-P, and 246 mg L[sup.−1] K[sup.+]. This approach resulted in satisfactory levels of P, K and micronutrients. The solution was tested pure and spiked with Ca(NO[sub.3])[sub.2] on lettuce in comparison with a mineral Hoagland nutrient solution. Neither the bioponic nor the spiked bioponic solution achieved comparable lettuce yields to the Hoagland solution. The poor growth of the plants in the bioponic solution was attributed to an unfavorable NH[sub.4] [sup.+]:NO[sub.3] [sup.−] ratio, high microorganism load, and elevated pH levels. However, the approach of preparing bioponic stock solutions could be promising for future research into the production of balanced bioponic nutrient solutions from organic residues.
ISSN:2077-0472
2077-0472
DOI:10.3390/agriculture14060928