Grass Growth and N2O Emissions From Soil After Application of Jellyfish in Coastal Areas

Grass Growth and N2O Emissions From Soil After Application of Jellyfish in Coastal Areas

The supply of nutrients for agricultural production faces enormous challenges as food security and sustainability goals have to be ensured. Processing of marine biomass has high potential to provide nutrients for agricultural purposes in coastal areas. One underexplored resource are jellyfish, which...

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Main Authors: Florian Borchert, Iraj Emadodin, Christof Kluß, Ana Rotter, Thorsten Reinsch
Format: Article
Language:English
Published: Frontiers Media S.A. 2021-08-01
Series:Frontiers in Marine Science
Subjects:
organic fertilizer
marine biomass
circular economy
blue growth
organic agriculture
Online Access:https://www.frontiersin.org/articles/10.3389/fmars.2021.711601/full
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spelling doaj-bdcbd42ca37c44b78b236a126e0e26d72021-08-03T15:52:38ZengFrontiers Media S.A.Frontiers in Marine Science2296-77452021-08-01810.3389/fmars.2021.711601711601Grass Growth and N2O Emissions From Soil After Application of Jellyfish in Coastal AreasFlorian Borchert0Iraj Emadodin1Christof Kluß2Ana Rotter3Thorsten Reinsch4Institute for Crop Science and Plant Breeding, Department of Grass and Forage Science/Organic Agriculture, Christian Albrechts University, Kiel, GermanyInstitute for Crop Science and Plant Breeding, Department of Grass and Forage Science/Organic Agriculture, Christian Albrechts University, Kiel, GermanyInstitute for Crop Science and Plant Breeding, Department of Grass and Forage Science/Organic Agriculture, Christian Albrechts University, Kiel, GermanyMarine Biology Station Piran, National Institute of Biology, Piran, SloveniaInstitute for Crop Science and Plant Breeding, Department of Grass and Forage Science/Organic Agriculture, Christian Albrechts University, Kiel, GermanyThe supply of nutrients for agricultural production faces enormous challenges as food security and sustainability goals have to be ensured. Processing of marine biomass has high potential to provide nutrients for agricultural purposes in coastal areas. One underexplored resource are jellyfish, which occur as blooms and by-catch of the fishing industry. In this context, a pot experiment investigated the effects of jellyfish as a fertilizer on biomass accumulation of annual ryegrass (Lolium multiflorum), and its effect on the important greenhouse gas N2O as a sustainability indicator of novel fertilizers. Dried and ground jellyfish was applied [3 species: Aurelia aurita (AA), Cyanea capillata (CC), Periphylla periphylla (PP)] and compared with an unfertilized and a mineral fertilized (calcium-ammonium-nitrate, CAN) treatment. Dried jellyfish and CAN were applied at equal N rates of 5 g N per m2. The N2O-fluxes from soil were measured over 56 days after fertilizer application. Grass dry matter yields, when using CC and PP treatments, were not significantly different to the CAN treatment (p > 0.05). After reducing its salinity, AA also showed no differences to CAN on plant growth and the lowest coefficient of variation for dry matter yield as an indicator for yield stability. Accumulated N2O-emissions were lowest in the control and were 3-times higher in AA and CC compared to CAN (p < 0.05). If salinity levels are moderate, jellyfish application to soil can compete with artificial mineral fertilizers in terms of N-supply for above- and belowground yield response, regardless of jellyfish species used. However, elevated N2O-emissions are likely to affect its suitability for large-scale application. Nevertheless, if energy-efficient methods of drying and desalination of jellyfish can be developed, in coastal areas dried jellyfish is a valuable fertilizer in coastal areas, particularly in situations where nutrient supplies for agriculture are limited.https://www.frontiersin.org/articles/10.3389/fmars.2021.711601/fullorganic fertilizermarine biomasscircular economyblue growthorganic agriculture
collection DOAJ
language English
format Article
sources DOAJ
author Florian Borchert
Iraj Emadodin
Christof Kluß
Ana Rotter
Thorsten Reinsch
spellingShingle Florian Borchert
Iraj Emadodin
Christof Kluß
Ana Rotter
Thorsten Reinsch
Grass Growth and N2O Emissions From Soil After Application of Jellyfish in Coastal Areas
Frontiers in Marine Science
organic fertilizer
marine biomass
circular economy
blue growth
organic agriculture
author_facet Florian Borchert
Iraj Emadodin
Christof Kluß
Ana Rotter
Thorsten Reinsch
author_sort Florian Borchert
title Grass Growth and N2O Emissions From Soil After Application of Jellyfish in Coastal Areas
title_short Grass Growth and N2O Emissions From Soil After Application of Jellyfish in Coastal Areas
title_full Grass Growth and N2O Emissions From Soil After Application of Jellyfish in Coastal Areas
title_fullStr Grass Growth and N2O Emissions From Soil After Application of Jellyfish in Coastal Areas
title_full_unstemmed Grass Growth and N2O Emissions From Soil After Application of Jellyfish in Coastal Areas
title_sort grass growth and n2o emissions from soil after application of jellyfish in coastal areas
publisher Frontiers Media S.A.
series Frontiers in Marine Science
issn 2296-7745
publishDate 2021-08-01
description The supply of nutrients for agricultural production faces enormous challenges as food security and sustainability goals have to be ensured. Processing of marine biomass has high potential to provide nutrients for agricultural purposes in coastal areas. One underexplored resource are jellyfish, which occur as blooms and by-catch of the fishing industry. In this context, a pot experiment investigated the effects of jellyfish as a fertilizer on biomass accumulation of annual ryegrass (Lolium multiflorum), and its effect on the important greenhouse gas N2O as a sustainability indicator of novel fertilizers. Dried and ground jellyfish was applied [3 species: Aurelia aurita (AA), Cyanea capillata (CC), Periphylla periphylla (PP)] and compared with an unfertilized and a mineral fertilized (calcium-ammonium-nitrate, CAN) treatment. Dried jellyfish and CAN were applied at equal N rates of 5 g N per m2. The N2O-fluxes from soil were measured over 56 days after fertilizer application. Grass dry matter yields, when using CC and PP treatments, were not significantly different to the CAN treatment (p > 0.05). After reducing its salinity, AA also showed no differences to CAN on plant growth and the lowest coefficient of variation for dry matter yield as an indicator for yield stability. Accumulated N2O-emissions were lowest in the control and were 3-times higher in AA and CC compared to CAN (p < 0.05). If salinity levels are moderate, jellyfish application to soil can compete with artificial mineral fertilizers in terms of N-supply for above- and belowground yield response, regardless of jellyfish species used. However, elevated N2O-emissions are likely to affect its suitability for large-scale application. Nevertheless, if energy-efficient methods of drying and desalination of jellyfish can be developed, in coastal areas dried jellyfish is a valuable fertilizer in coastal areas, particularly in situations where nutrient supplies for agriculture are limited.
topic organic fertilizer
marine biomass
circular economy
blue growth
organic agriculture
url https://www.frontiersin.org/articles/10.3389/fmars.2021.711601/full
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