Pas d'enregistrements
Sirine Bouguerra
2022
2Improve: Boost the potential of resistant indigenous plant growth-promoting rhizobacteria to improve crop productivity and soil quality in Estarreja and Baixo Vouga Lagunar affected agroecosystems.
The threatens to agriculture soils from the Estarreja and Baixo Vouga Lagunar (BVL) regions include the combination of several anthropogenic and environmental factors, such as industrial pollution, intensive farming practices, overuse of fertilizers, the use of contaminated groundwater for irrigation, and salinization due to surface saltwater intrusion. For instance, these factors contributed to land degradation and therefore to crop productivity and safety decreasing. Maize (Zea mays L.) is one of the most important crops in these regions and boosting maize production in affected soils can have a significant socio-economic impact. Thus, the need of sustainable and eco-friendly solutions to improve productivity is one of the major challenges of agriculture activity in these regions. Estarreja and BVL may also be living labs, providing experience to other sites, where these approaches may be transferred. Several studies have demonstrated that inoculation with indigenous rhizobacteria can enhance plant performance and growth. Driven by described issues and based on knowledges acquired from our previous OHM projects (e.g: SoilGenomic, 2016; NotillAgri-Estarreja, 2017; Nameless, 2017; SoilSalt, 2017; SoilRice, 2018), this proposal aims to explore the potential of a consortium of indigenous plant growth-promoting rhizobacteria (PGPB) that are resistant to metal(loids) present in those soils, as well as PGPB well adapted to high levels of salinity and re-applied them to reduce problems associated with stressful environments via ex-situ bioinoculation of new seeds (before sowing) and in-situ bioinoculation of new plantlets. Accordingly, this may contribute to minimizing impacts on crops productivity and assure more sustainable agriculture practices.
Lopes Isabel
2022
CLEAR - Resorting to microbial Consortia to restore metaL-contaminated soils for the area of EstArReja
Flavio Silva
2022
SAYFERT - Safety and effectiveness of Estarreja-based fertilisers under circular economy principles
Circular economy has emerged for sustainable management of natural resources aligned with good industrial practices. New-generation fertilisers are an example of industrial synergies and environmental compatibility. The recently revised EU Fertilisers Regulation creates room for development of waste-based fertilisers, as long as their agronomic value and environmental safety are proven. In this sense, there are still on-going discussions at the stakeholders/regulators’ level in order to systematically assess the effectiveness and environmental safety of new waste-based fertilisers. Such discussions are an excellent opportunity for the OHM-E to provide scientific insights on the safe and effective application of local-based fertilisers and turn Estarreja into an example of good agronomic practices aligned with industrial synergies and environmental protection.
Nuno Durães
2022
TracEnviSoil - Tracing metal(loid) and rare earth elements contents in alluvial soils of Baixo Vouga Lagunar: Origin, availability and environmental issues
The Baixo Vouga Laugar (BVL) is a very particular example of the harmonious coexistence between man and nature. This region, characterised by highly productive soils, enticed humankind to take advantage of its land and surface water reservoirs for the development of various agricultural practices (e.g., rice paddies, cornfields, pasture, among others). The high fertility of BVL's soils is owed to their development under the influence of alluvial deposits, materials with loamy texture, high porosity and marked organic matter enrichment. However, as demonstrated by the results obtained in other OHM projects, some of these soils are enriched in several potential toxic elements (PTEs). For this reason, the TracEnviSoil project intends to obtain a screening of the distribution of metal(loid)s of greater concern, as well as of rare earth elements (REEs), in order to ascertain the most probable sources (geogenic versus anthropogenic) of these trace elements, but also their (bio)availability and eco-toxicity in agriculture soils. This would allow to infer the potential risks for soil productivity, by creating harmful conditions for the soil microbiome and plant growth. Finally, the bioaccumulation of PTEs in the edible parts of plants will be evaluated in order to estimate the risk of their entry into the food chain, namely of animals and humans that feed on the vegetable products grown on these soils.
Ruth Pereira
2020
Is4RISK- derivation of soil reference values for potentially toxic elements (As, Pb and Cu) by using a regosol representive of Estarreja soils
Soil Reference Values (SRV) for potentially toxic elements (PTEs) are of utmost importance for the first tier of risk assessment of contaminated sites. The Portuguese Environmental Agency has recently proposed SRV for soil, based on their used, but the type of soil was not taken into account. However, and giving the role of soil properties on the mobility and bioavailability of contaminants it is widely recognized that SRV should be defined for different types of natural soils, or at least, they should allow readjustments based in the content of organic matter and clay of the target soil. In this context, to refine the ability of predicting the risks of contaminants affecting the soils, nearby the Estarreja Chemical Complex (ECC), this project aims to derive SRV for the main PTEs of concern in the area (As, Pb and Cu), by using a reference regosol, which is the particular type of soil that can be found in the area. This reference regosol will be the deliverable that will increase the afterlife duration of the project, as it will be useful for the future derivation of SRV for other PTEs, including organic contaminants.
Flavio Silva
2020
MOSAIC – Application of microbial-laden biochar as a proxy for long-term sustainability of contaminated soils
Over ten years the OHM-E has unravelled negative impacts of the industry on the quality of soils surrounding Estarreja. Yet, it is not all bad news. Previous research (DRuMBEAT) has conceptualized and tested a path for bioremediation of contaminated soils based on exploitation of their indigenous microbiomes coupled with biochar (pyrolysed biomass). Model organic contaminants in Estarreja-surrounding soils were successfully biodegraded by biochar-attached biofilms naturally engineered from contaminated soils, which proved them to be better adapted to inhibitory environments than those retrieved from “clean” sites. Though the hypotheses were successfully demonstrated, the biochar-microbial synergisms in contaminated soils surpassed the initial expectations by significantly boosting the biochemical activity, thus anticipating further benefits in development of a broader quality strategy for Estarreja soils. Additionally, biochar production can be tuned to target local-based feedstocks management, yield optimal porosity and redox chemistry to carry biofilms and immobilise contaminants, and provide further long-lasting fertilisation.
Anabela Cachada
2020
SSTemWater – Sources and Short-term TEMporal evolution of GroundWATER contamination in Estarreja region
The Estarreja Chemical Complex (ECC), composed essentially by chemical plants that produce, among others, aniline, nitrobenzene, PVC, isocyanide polymers of aromatic base and polystyrene polymers for thermal isolation, has been pointed as a major threat to the environment and to public health in the region. For decades, the different ECC industries disposed off solid wastes directly on the permeable sands without containment, and untreated liquid effluents were discharged directly on streams connected to the coastal lagoon. Due to the geological features (unconsolidated detritic sedimentary rocks) of this region, that allows the contaminant’s dispersion, there is a high vulnerability of the aquifer to environmental hazards. Although waste management practices improved significantly in the last years, there are still signs of groundwater contamination. Indeed, previous studies indicate that the ECC is a vulnerable area due to the presence of multiple pressures (agriculture, industry and urban activities) and hotspots of organic and inorganic contaminants were already identified. However, there is a space-temporal variation of these hotspots that was not yet fully understood and it is not clear yet how contaminants are reaching the aquifer. Thus, this project aims at understand the dynamics behind the groundwater contamination and the processes that result in specific hotspots, and consequently identify sources and pathways of contaminants. Moreover, since some of the contaminants previously identified are classified as carcinogenic and highly toxic, the potential risks to the environment and human health will be also evaluated.
Andrés Andrés Rodríguez Seijo
2018
MATiSSe - Microplastics on AgriculTural SoilS: assessment of their impact on physical, chemical and biological soil properties
This project proposes to study the impact of Microplastics in agricultural soils, though the assessment of several soil properties: physical (soil texture, soil structure and bulk density), chemical (pH, cation exchange capacity, organic matter, potentially toxic elements and compounds) and biological properties (soil enzymatic activity and/or soil organisms). Although this project could be developed in any region, Estarreja region offers an exceptional environment due to having a mixed area of agricultural and industrial activities, where MPs can act as carriers of potentially toxic elements and compounds, as reported for aquatic ecosystems. Further, insights brought by this project can be useful to support the development of soil management measures specifically targeting the restoration of the quality of soils from Estarreja.
María Nazaret González Alcaraz
2018
MICROCLIM - Effects of global warming on microbial populations from contaminated agricultural soils in the area of Estarreja
The Intergovernmental Panel on Climate Change (IPCC) predicts increasing air temperatures and decreasing soil moisture content, the soils being among the most affected components of terrestrial ecosystems, especially in anthropogenic-contaminated areas. Soil microorganisms are key players in terrestrial ecosystem functions and services, quickly responding to environmental stresses. MICROCLIM aims to assess how microbial populations of agricultural soils affected by the contamination derived from the Estarreja Chemical Complex may be affected under the current global warming perspective, by using changes at structural and functional level. The specific objectives are: 1) assessing structural and functional changes in microbial populations of contaminated agricultural soils induced by single climate factors (soil moisture content and air temperature and their relation to changes in soil chemical and physicochemical parameters, and 2) assessing structural and functional changes in microbial populations of contaminated agricultural soils under different climate change scenarios, simulated by climate factors combinations (soil moisture content and air temperature), and their relation to changes in soil chemical and physicochemical parameters. Climate factors ranges will be established based on the emission scenarios predicted by the IPCC by 2100. The project will rely on changes in soil microbial populations at structural (bacterial community phylogenetic composition) and functional (microbial metabolic activity) level and their relation to key soil parameters (pH, organic matter, metal(loi) availability). MICROCLIM will improve the capacity to predict the consequences of global warming in soil microbiota from anthropogenic-contaminated soils, which, in turn, will enable a better preservation and sustainability of soil ecosystem functions and services.
Nuno Durães
2018
SOILRICE - Geochemical and ecological soil quality status in cultivated and abandoned rice paddies
Estarreja is a region of marked contrasts, where an almost unique ecological reservoir, the Baixo Vouga Lagunar (BVL), contrasts with one of the most important chemical industry of the country. Fortunately, these contrasts between nature and man’s hand are not always so marked. Integrated in this ecological reserve, man modelled the land and used the surface water reservoirs to develop there an agricultural practice dedicated to rice cultivation, and perfectly harmonized with the surrounding landscape – the “Bocage landscape”.
