Integrative assessment of innovative agricultural products on soil functioning and quality
| Main Author: | |
|---|---|
| Publication Date: | 2024 |
| Language: | eng |
| Source: | Repositórios Científicos de Acesso Aberto de Portugal (RCAAP) |
| Download full: | http://hdl.handle.net/10773/43029 |
Summary: | In the mid-20th century, the development of the Green Revolution enabled the increase of agricultural production, which was essential to support a flourishing world population. Despite the increase in crop yields, this intensification has also led to ongoing ecosystem deterioration, imperilling the delivery of ecosystem services. Nowadays, crop yields are showing signs of stagnation while the available land for agricultural production is decreasing. Population projections estimate that the global population is expected to continue to rise, consequently reflecting higher food demand. To suppress this, agricultural products such as fertilizers are extensively used to enhance agricultural productivity, whose overuse and misuse are responsible for several environmental consequences. Research has been undertaken to tackle the much-needed development of innovative agriproducts to meet productivity demands, without compromising environmental integrity and human health. Nanofertilizers and organic fertilizers derived from insects (insect frass) are promising solutions to overcome these concerns. Still, to avoid further soil degradation, evaluating their efficacy and environmental safety is crucial. Aiming to contribute to this knowledge gap, this thesis's main goal was to evaluate the agronomic and environmental effects of two innovative fertilizer products, the nanofertilizer layered double hydroxide (LDH) and the organic fertilizer insect frass. The first approach consisted of the evaluation of the effect of two nanofertilizers, the Zn-Al-NO3 LDH and Mg-Al-NO3 LDH, on the avoidance behaviour of two soil invertebrate species, the enchytraeid Enchytraeus crypticus and the collembolan Folsomia candida, over a 3-month exposure period. Furthermore, the release of Zn and Mg from LDHs was evaluated. Results showed that enchytraeids were more sensitive to the LDH-treated soils and Zn-Al-NO3 LDH was considered less favourable compared to Mg-Al-NO3 LDH. The toxicity of the LDHs to the soil invertebrates decreased with time and was mainly related to the Zn and Mg release. Secondly, a chronic assessment was planned to evaluate the effects of both LDHs on the survival and reproduction of E. crypticus and F. candida over 3 months. It was shown that the toxicity of LDHs was species-dependent, with E. crypticus being more affected by Zn-Al-NO3 LDH and F. candida by Mg-Al-NO3 LDH. Contrary to the first approach, toxicity increased with ageing time, which was related to the availability of Zn and Mg in the soil pore water and the possible influence of other LDH constituents. Afterwards, the efficacy of Zn-Al-NO3 LDH as a potential alternative to conventional Zn fertilizers was evaluated using an approach that combined plant performance, soil functionality indicators and Zn fate assessments. This study showed that Zn-Al-NO3 LDH promoted a slow and controlled release of Zn, reflecting reduced Zn leaching. At the same time, a higher Zn content in the roots was observed, indicating an effective release of Zn, without causing toxicity to the plant development or the soil enzymes, whose activity is a proxy for soil function. In addition to LDHs, the efficacy and environmental safety of frass produced by black soldier fly (BSF) larvae were evaluated. On the one hand, an assessment was planned to evaluate the effects of BSF frass on the survival and reproduction of E. crypticus and F. candida, and on the early development of three plant species, the onion Allium cepa, the turnip Brassica rapa and the tomato Solanum lycopersicum. Overall, it was shown that BSF frass enhanced E. crypticus reproduction, while no effects were observed on the remaining endpoints of both invertebrate species. Seed germination was negatively affected at the highest application rate, and plants’ development was enhanced at intermediate application rates. Biological outcomes could be correlated to the changes in the soil's physical and chemical properties. On the other hand, a greenhouse experiment was conducted to evaluate the agronomic potential of frass for tomato production, combined with an environmental safety assessment. This approach included the evaluation of functional indicators that were grouped into ecosystem functions and assessed as ecosystem services. Briefly, results showed that BSF frass improved soil properties and tomato yield without changes in the morphology and physiology of the plants. No significant effects were observed on biotic factors, although a higher growth rate of aquatic macrophytes (in one sampling point) could indicate potential eutrophication processes. By condensing all measured functional indicators, this assessment showed that the BSF frass treatment promoted similar ecosystem multifunctionality as conventional fertilization treatments (a mixture of a mineral fertilizer with horse manure), highlighting this innovative fertilizer as a potential alternative to conventional fertilizers, known for causing environmental and human problems. The data generated in the present thesis displayed that both products can be considered potential new fertilization products under certain doses. Moreover, it is expected to contribute to improve the risk assessment of nanomaterials and organic fertilizers generated by insects. |
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Integrative assessment of innovative agricultural products on soil functioning and qualityEcotoxicologyNanofertilizersFrassOrganic fertilizerBlack soldier flySoil invertebratesPlantsSoil functionsEcosystem servicesIn the mid-20th century, the development of the Green Revolution enabled the increase of agricultural production, which was essential to support a flourishing world population. Despite the increase in crop yields, this intensification has also led to ongoing ecosystem deterioration, imperilling the delivery of ecosystem services. Nowadays, crop yields are showing signs of stagnation while the available land for agricultural production is decreasing. Population projections estimate that the global population is expected to continue to rise, consequently reflecting higher food demand. To suppress this, agricultural products such as fertilizers are extensively used to enhance agricultural productivity, whose overuse and misuse are responsible for several environmental consequences. Research has been undertaken to tackle the much-needed development of innovative agriproducts to meet productivity demands, without compromising environmental integrity and human health. Nanofertilizers and organic fertilizers derived from insects (insect frass) are promising solutions to overcome these concerns. Still, to avoid further soil degradation, evaluating their efficacy and environmental safety is crucial. Aiming to contribute to this knowledge gap, this thesis's main goal was to evaluate the agronomic and environmental effects of two innovative fertilizer products, the nanofertilizer layered double hydroxide (LDH) and the organic fertilizer insect frass. The first approach consisted of the evaluation of the effect of two nanofertilizers, the Zn-Al-NO3 LDH and Mg-Al-NO3 LDH, on the avoidance behaviour of two soil invertebrate species, the enchytraeid Enchytraeus crypticus and the collembolan Folsomia candida, over a 3-month exposure period. Furthermore, the release of Zn and Mg from LDHs was evaluated. Results showed that enchytraeids were more sensitive to the LDH-treated soils and Zn-Al-NO3 LDH was considered less favourable compared to Mg-Al-NO3 LDH. The toxicity of the LDHs to the soil invertebrates decreased with time and was mainly related to the Zn and Mg release. Secondly, a chronic assessment was planned to evaluate the effects of both LDHs on the survival and reproduction of E. crypticus and F. candida over 3 months. It was shown that the toxicity of LDHs was species-dependent, with E. crypticus being more affected by Zn-Al-NO3 LDH and F. candida by Mg-Al-NO3 LDH. Contrary to the first approach, toxicity increased with ageing time, which was related to the availability of Zn and Mg in the soil pore water and the possible influence of other LDH constituents. Afterwards, the efficacy of Zn-Al-NO3 LDH as a potential alternative to conventional Zn fertilizers was evaluated using an approach that combined plant performance, soil functionality indicators and Zn fate assessments. This study showed that Zn-Al-NO3 LDH promoted a slow and controlled release of Zn, reflecting reduced Zn leaching. At the same time, a higher Zn content in the roots was observed, indicating an effective release of Zn, without causing toxicity to the plant development or the soil enzymes, whose activity is a proxy for soil function. In addition to LDHs, the efficacy and environmental safety of frass produced by black soldier fly (BSF) larvae were evaluated. On the one hand, an assessment was planned to evaluate the effects of BSF frass on the survival and reproduction of E. crypticus and F. candida, and on the early development of three plant species, the onion Allium cepa, the turnip Brassica rapa and the tomato Solanum lycopersicum. Overall, it was shown that BSF frass enhanced E. crypticus reproduction, while no effects were observed on the remaining endpoints of both invertebrate species. Seed germination was negatively affected at the highest application rate, and plants’ development was enhanced at intermediate application rates. Biological outcomes could be correlated to the changes in the soil's physical and chemical properties. On the other hand, a greenhouse experiment was conducted to evaluate the agronomic potential of frass for tomato production, combined with an environmental safety assessment. This approach included the evaluation of functional indicators that were grouped into ecosystem functions and assessed as ecosystem services. Briefly, results showed that BSF frass improved soil properties and tomato yield without changes in the morphology and physiology of the plants. No significant effects were observed on biotic factors, although a higher growth rate of aquatic macrophytes (in one sampling point) could indicate potential eutrophication processes. By condensing all measured functional indicators, this assessment showed that the BSF frass treatment promoted similar ecosystem multifunctionality as conventional fertilization treatments (a mixture of a mineral fertilizer with horse manure), highlighting this innovative fertilizer as a potential alternative to conventional fertilizers, known for causing environmental and human problems. The data generated in the present thesis displayed that both products can be considered potential new fertilization products under certain doses. Moreover, it is expected to contribute to improve the risk assessment of nanomaterials and organic fertilizers generated by insects.Em meados do século XX, o desenvolvimento da Revolução Verde levou ao aumento da produção agrícola, essencial para suportar a crescente população mundial. Apesar do aumento na produtividade das culturas agrícolas, esta intensificação também provocou uma contínua deterioração do ecossistema, comprometendo o fornecimento de serviços do ecossistema. Atualmente, a produtividade das culturas tem vindo a mostrar sinais de estagnação, enquanto que a disponibilidade de terrenos para produção agrícola continua a diminuir. As projeções populacionais estimam que a população global continue a aumentar, refletindo consequentemente numa maior procura por alimentos. De forma a combater esta demanda, produtos agrícolas, nomeadamente fertilizantes, têm vindo a ser amplamente utilizados para melhorar a produtividade agrícola, cujo uso excessivo e inadequado é responsável por várias consequências ambientais. Investigação tem vindo a ser desenvolvida considerando a necessidade de produtos agrícolas inovadores para atingir as exigências de produtividade, sem comprometer a integridade ambiental e a saúde humana. Os nanofertilizantes e os fertilizantes orgânicos derivados de insetos (insect frass) são soluções promissoras para ultrapassar estas questões. No entanto, para evitar uma maior degradação do solo, a avaliação da sua eficácia e segurança ambiental é crucial. Visando contribuir para esta lacuna de conhecimento, o objetivo principal desta tese consistiu na avaliação dos efeitos agronómicos e ambientais de dois produtos fertilizantes inovadores, o nanofertilizante hidróxido duplo lamelar (LDH) e o fertilizante orgânico insect frass. A primeira abordagem consistiu na avaliação do efeito de dois nanofertilizantes, o LDH de Zn-Al-NO3 e o LDH de Mg-Al-NO3, no comportamento de duas espécies de invertebrados de solo, o enquitreídeo Enchytraeus crypticus e o colêmbolo Folsomia candida, durante um período de exposição de 3 meses. Além disso, a libertação de Zn e Mg dos LDHs foi avaliada. Os resultados mostraram que os enquitreídeos foram mais sensíveis aos solos tratados com LDHs, e o LDH de Zn-Al-NO3 foi considerado menos favorável comparativamente ao LDH de Mg-Al-NO3. A toxicidade dos LDHs para os invertebrados do solo diminuiu ao longo do tempo, sendo maioritariamente relacionada com a libertação de Zn e Mg. De seguida, foi planeada uma exposição crónica para se avaliar os efeitos de ambos os LDHs na sobrevivência e reprodução de E. crypticus e F. candida ao longo de 3 meses. Foi possível verificar que a toxicidade dos LDHs dependia da espécie testada, sendo E. crypticus a espécie mais afetada pelo LDH de Zn-Al-NO3 e F. candida pelo LDH de Mg-Al-NO3. Contrariamente à primeira abordagem, a toxicidade aumentou com o tempo de envelhecimento, que foi relacionada com a disponibilidade de Zn e Mg na água dos poros do solo e a possível influência de outros constituintes dos LDHs. Posteriormente, foi avaliada a eficácia do LDH de Zn-Al-NO3 como possível alternativa a fertilizantes de Zn convencionais, usando uma abordagem que combinava o desempenho da planta, indicadores de funcionalidade do solo e análises ao destino de Zn. Este estudo mostrou que o LDH de Zn-Al-NO3 promoveu uma libertação lenta e controlada de Zn, refletindo numa lixiviação reduzida de Zn. Simultaneamente, observou-se um maior conteúdo de Zn nas raízes, indicando uma libertação efetiva de Zn sem causar toxicidade ao desenvolvimento da planta nem às enzimas do solo, cuja atividade é um indicador para a função do solo. Juntamente com os LDHs, foi avaliada a eficácia e a segurança ambiental do frass produzida por larvas da mosca soldado-negro (BSF). Por um lado, planeou-se avaliar os efeitos do frass de BSF na sobrevivência e reprodução de E. crypticus e F. candida e no desenvolvimento inicial de 3 espécies de plantas, a cebola Allium cepa, o nabo Brassica rapa e o tomate Solanum lycopersicum. Em geral, foi possível verificar que, enquanto a frass melhorou a reprodução de E. crypticus, não foram observados efeitos nos restantes parâmetros de ambas as espécies de invertebrados. A germinação das sementes foi afetada negativamente com a taxa de aplicação mais elevada, e o desenvolvimento das plantas melhorou com uma taxa de aplicação intermédia. Os resultados biológicos podem estar relacionados com as propriedades físicas e químicas do solo. Por outro lado, foi elaborada uma experiência em estufa para avaliar o potencial agronómico do frass para a produção de tomate, em conjunto com uma avaliação da segurança ambiental. Esta abordagem incluiu a avaliação de indicadores funcionais que foram agrupados em funções do ecossistema e analisados como serviços de ecossistema. Resumidamente, os resultados mostraram que a frass melhorou as propriedades do solo e a produção do tomate, sem alterar a morfologia e a fisiologia das plantas. Não foram observados efeitos significativos nos fatores bióticos, embora um aumento da taxa de crescimento de macrófitas aquáticas (num ponto de amostragem) possa indicar possíveis processos de eutrofização. Ao condensar todos os indicadores funcionais medidos, esta avaliação demonstrou que o tratamento com frass promoveu uma multifuncionalidade do ecossistema semelhante aos tratamentos convencionais de fertilização (uma mistura de um fertilizante mineral com estrume de cavalo), destacando este fertilizante inovador como uma alternativa a fertilizantes convencionais, conhecidos por causarem problemas ambientais e humanos. Os dados gerados nesta tese demonstram que ambos os produtos poderão ser considerados potenciais novos produtos de fertilização, em determinadas doses. Além disso, estes dados poderão contribuir para melhorar a análise de risco de nanomateriais e fertilizantes orgânicos criados por insetos.2026-11-21T00:00:00Z2024-11-12T00:00:00Z2024-11-12doctoral thesisinfo:eu-repo/semantics/publishedVersionapplication/pdfhttp://hdl.handle.net/10773/43029engMalheiro, Catarina Correia de Lemosinfo:eu-repo/semantics/embargoedAccessreponame:Repositórios Científicos de Acesso Aberto de Portugal (RCAAP)instname:FCCN, serviços digitais da FCT – Fundação para a Ciência e a Tecnologiainstacron:RCAAP2024-12-09T01:47:39Zoai:ria.ua.pt:10773/43029Portal AgregadorONGhttps://www.rcaap.pt/oai/openaireinfo@rcaap.ptopendoar:https://opendoar.ac.uk/repository/71602025-05-28T19:18:01.405117Repositórios Científicos de Acesso Aberto de Portugal (RCAAP) - FCCN, serviços digitais da FCT – Fundação para a Ciência e a Tecnologiafalse |
| dc.title.none.fl_str_mv |
Integrative assessment of innovative agricultural products on soil functioning and quality |
| title |
Integrative assessment of innovative agricultural products on soil functioning and quality |
| spellingShingle |
Integrative assessment of innovative agricultural products on soil functioning and quality Malheiro, Catarina Correia de Lemos Ecotoxicology Nanofertilizers Frass Organic fertilizer Black soldier fly Soil invertebrates Plants Soil functions Ecosystem services |
| title_short |
Integrative assessment of innovative agricultural products on soil functioning and quality |
| title_full |
Integrative assessment of innovative agricultural products on soil functioning and quality |
| title_fullStr |
Integrative assessment of innovative agricultural products on soil functioning and quality |
| title_full_unstemmed |
Integrative assessment of innovative agricultural products on soil functioning and quality |
| title_sort |
Integrative assessment of innovative agricultural products on soil functioning and quality |
| author |
Malheiro, Catarina Correia de Lemos |
| author_facet |
Malheiro, Catarina Correia de Lemos |
| author_role |
author |
| dc.contributor.author.fl_str_mv |
Malheiro, Catarina Correia de Lemos |
| dc.subject.por.fl_str_mv |
Ecotoxicology Nanofertilizers Frass Organic fertilizer Black soldier fly Soil invertebrates Plants Soil functions Ecosystem services |
| topic |
Ecotoxicology Nanofertilizers Frass Organic fertilizer Black soldier fly Soil invertebrates Plants Soil functions Ecosystem services |
| description |
In the mid-20th century, the development of the Green Revolution enabled the increase of agricultural production, which was essential to support a flourishing world population. Despite the increase in crop yields, this intensification has also led to ongoing ecosystem deterioration, imperilling the delivery of ecosystem services. Nowadays, crop yields are showing signs of stagnation while the available land for agricultural production is decreasing. Population projections estimate that the global population is expected to continue to rise, consequently reflecting higher food demand. To suppress this, agricultural products such as fertilizers are extensively used to enhance agricultural productivity, whose overuse and misuse are responsible for several environmental consequences. Research has been undertaken to tackle the much-needed development of innovative agriproducts to meet productivity demands, without compromising environmental integrity and human health. Nanofertilizers and organic fertilizers derived from insects (insect frass) are promising solutions to overcome these concerns. Still, to avoid further soil degradation, evaluating their efficacy and environmental safety is crucial. Aiming to contribute to this knowledge gap, this thesis's main goal was to evaluate the agronomic and environmental effects of two innovative fertilizer products, the nanofertilizer layered double hydroxide (LDH) and the organic fertilizer insect frass. The first approach consisted of the evaluation of the effect of two nanofertilizers, the Zn-Al-NO3 LDH and Mg-Al-NO3 LDH, on the avoidance behaviour of two soil invertebrate species, the enchytraeid Enchytraeus crypticus and the collembolan Folsomia candida, over a 3-month exposure period. Furthermore, the release of Zn and Mg from LDHs was evaluated. Results showed that enchytraeids were more sensitive to the LDH-treated soils and Zn-Al-NO3 LDH was considered less favourable compared to Mg-Al-NO3 LDH. The toxicity of the LDHs to the soil invertebrates decreased with time and was mainly related to the Zn and Mg release. Secondly, a chronic assessment was planned to evaluate the effects of both LDHs on the survival and reproduction of E. crypticus and F. candida over 3 months. It was shown that the toxicity of LDHs was species-dependent, with E. crypticus being more affected by Zn-Al-NO3 LDH and F. candida by Mg-Al-NO3 LDH. Contrary to the first approach, toxicity increased with ageing time, which was related to the availability of Zn and Mg in the soil pore water and the possible influence of other LDH constituents. Afterwards, the efficacy of Zn-Al-NO3 LDH as a potential alternative to conventional Zn fertilizers was evaluated using an approach that combined plant performance, soil functionality indicators and Zn fate assessments. This study showed that Zn-Al-NO3 LDH promoted a slow and controlled release of Zn, reflecting reduced Zn leaching. At the same time, a higher Zn content in the roots was observed, indicating an effective release of Zn, without causing toxicity to the plant development or the soil enzymes, whose activity is a proxy for soil function. In addition to LDHs, the efficacy and environmental safety of frass produced by black soldier fly (BSF) larvae were evaluated. On the one hand, an assessment was planned to evaluate the effects of BSF frass on the survival and reproduction of E. crypticus and F. candida, and on the early development of three plant species, the onion Allium cepa, the turnip Brassica rapa and the tomato Solanum lycopersicum. Overall, it was shown that BSF frass enhanced E. crypticus reproduction, while no effects were observed on the remaining endpoints of both invertebrate species. Seed germination was negatively affected at the highest application rate, and plants’ development was enhanced at intermediate application rates. Biological outcomes could be correlated to the changes in the soil's physical and chemical properties. On the other hand, a greenhouse experiment was conducted to evaluate the agronomic potential of frass for tomato production, combined with an environmental safety assessment. This approach included the evaluation of functional indicators that were grouped into ecosystem functions and assessed as ecosystem services. Briefly, results showed that BSF frass improved soil properties and tomato yield without changes in the morphology and physiology of the plants. No significant effects were observed on biotic factors, although a higher growth rate of aquatic macrophytes (in one sampling point) could indicate potential eutrophication processes. By condensing all measured functional indicators, this assessment showed that the BSF frass treatment promoted similar ecosystem multifunctionality as conventional fertilization treatments (a mixture of a mineral fertilizer with horse manure), highlighting this innovative fertilizer as a potential alternative to conventional fertilizers, known for causing environmental and human problems. The data generated in the present thesis displayed that both products can be considered potential new fertilization products under certain doses. Moreover, it is expected to contribute to improve the risk assessment of nanomaterials and organic fertilizers generated by insects. |
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2024 |
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