119 research outputs found
Characterising the agriculture 4.0 landscape - Emerging trends, challenges and opportunities
ReviewInvestment in technological research is imperative to stimulate the development of sustainable
solutions for the agricultural sector. Advances in Internet of Things, sensors and sensor
networks, robotics, artificial intelligence, big data, cloud computing, etc. foster the transition towards
the Agriculture 4.0 era. This fourth revolution is currently seen as a possible solution for
improving agricultural growth, ensuring the future needs of the global population in a fair, resilient
and sustainable way. In this context, this article aims at characterising the current Agriculture 4.0
landscape. Emerging trends were compiled using a semi-automated process by analysing relevant
scientific publications published in the past ten years. Subsequently, a literature review focusing
these trends was conducted, with a particular emphasis on their applications in real environments.
From the results of the study, some challenges are discussed, as well as opportunities for future
research. Finally, a high-level cloud-based IoT architecture is presented, serving as foundation for
designing future smart agricultural systems. It is expected that this work will positively impact the
research around Agriculture 4.0 systems, providing a clear characterisation of the concept along with
guidelines to assist the actors in a successful transition towards the digitalisation of the sectorinfo:eu-repo/semantics/publishedVersio
Elemental Composition of Commercial Herbal Tea Plants and Respective Infusions
Funding Information: Funding: This work received funding support from national funds from Fundação para a Ciência e a Tecnologia, I.P. (FCT), Portugal, through the research units UIDB/04035/2020 (GeoBioTec) and UIDB/00239/2020 (CEF). Publisher Copyright: © 2022 by the authors. Licensee MDPI, Basel, Switzerland.This study evaluated the elemental composition of 25 herbal tea plants commonly used in infusions by Portuguese consumers and the contribution to the elemental daily intake of some essential elements. Hydrocotyle asiatica (L.), Matricaria chamomilla (L.), and Melissa officinalis (L.) samples are a rich source of K with around 6.0 mg g−1 while the Asteraceae Silybum marianum (L.) and Echinacea angustifolia (DC.) exhibited 4.9 and 5.6 mg g−1 Ca, respectively. The highest concentrations of S and Zn were noted in Hydrocotyle asiatica (L.), while the highest concentration of Sr was found in Cassia angustifolia (Vahl.). In general, a large variability in the concentrations among different families and plant organs had been observed, except Cu with levels around 30 µg g−1. The principal component analysis (PCA) showed positive correlations between Zn and S and Sr and Ca, also revealing that Hydrocotyle asiatica (L.), Echinacea angustifolia (DC.), Silybum marianum (L.), and Cassia angustifolia (Vahl.) samples, stands out about all other samples regarding the enrichment of macro and micronutrients. The elemental solubility of macronutrients in the infusion is greater than the micronutrient solubility, despite the contribution to the recommended daily intake was weak. As a whole, Cynara scolymus (L.) and Hibiscus sabdariffa (L.) are the species with the best elemental solubilities, followed by Hydrocotyle asiatica (L.). No harmful elements, such as As and Pb, were observed in both the raw material and the infusions.publishersversionpublishe
Elemental Composition of Commercial Herbal Tea Plants and Respective Infusions
This study evaluated the elemental composition of 25 herbal tea plants commonly used
in infusions by Portuguese consumers and the contribution to the elemental daily intake of some
essential elements. Hydrocotyle asiatica (L.), Matricaria chamomilla (L.), and Melissa officinalis (L.)
samples are a rich source of K with around 6.0 mg g-1 while the Asteraceae Silybum marianum
(L.) and Echinacea angustifolia (DC.) exhibited 4.9 and 5.6 mg g-1 Ca, respectively. The highest
concentrations of S and Zn were noted in Hydrocotyle asiatica (L.), while the highest concentration of
Sr was found in Cassia angustifolia (Vahl.). In general, a large variability in the concentrations among
different families and plant organs had been observed, except Cu with levels around 30 g g-1. The
principal component analysis (PCA) showed positive correlations between Zn and S and Sr and Ca,
also revealing that Hydrocotyle asiatica (L.), Echinacea angustifolia (DC.), Silybum marianum (L.), and
Cassia angustifolia (Vahl.) samples, stands out about all other samples regarding the enrichment of
macro and micronutrients. The elemental solubility of macronutrients in the infusion is greater than
the micronutrient solubility, despite the contribution to the recommended daily intake was weak.
As a whole, Cynara scolymus (L.) and Hibiscus sabdariffa (L.) are the species with the best elemental
solubilities, followed by Hydrocotyle asiatica (L.). No harmful elements, such as As and Pb, were
observed in both the raw material and the infusionsinfo:eu-repo/semantics/publishedVersio
The tolerance of eucalyptus globulus to soil contamination with arsenic
UID/FIS/04559/2020The contamination of abandoned mining areas is a problem worldwide that needs urgent attention. Phytoremediation emerges as a successful method to extract different contaminants from the soil. In this context, Eucalyptus globulus plants growing in soils artificial contaminated with arsenic (As) were used to access its phytoremediation capabilities. The effects of As on photosynthetic performance were monitored through different physiological parameters, whereas the uptake and translocation of As and the putative effects on calcium, iron, potassium, and zinc levels on plants were evaluated by X-ray fluorescence analysis. Root system is the major accumulator organ, while the translocation to the above-ground organs is poor. In the end of the experiment, the root biomass of plants treated with 200 μg As mL−1 is 27% and 49.7% lower than equivalent biomass from plants treated with 100 μg As mL−1 and control plants, respectively. Each plant can accumulate 8.19 and 8.91 mg As after a 6-month period, when submitted to 100 As and 200 As, respectively. It seems to exist an antagonistic effect of As on Zn root uptake by E. globulus. In general, the tested concentrations do not influence negatively plant metabolism, indicating that this species is suitable for plantation in contaminated areas.publishersversionpublishe
Elemental composition of algae-based supplements by energy dispersive X-ray fluorescence
The aim of this study is to evaluate the elemental composition of fifteen algae-based
supplements commonly sold in the Portuguese market, by energy dispersive X-ray fluorescence.
Despite the fact that the majority of Kelp samples were a good source of iodine, the levels observed
might well contribute to an excess in the human body, which can cause dysfunction of the thyroid
gland. Furthermore, the presence of lead in Sea spaghetti, Arame, Hijiki and Wakame caused a
considerable risk to public health vis a vis possible ingestion of a high daily dose. Regarding arsenic,
great variability was observed in all the samples with concentrations equal to or above 60 μg/g in
the case of Arame, KelpJ and Hijiki. Although algae mainly accumulate organic arsenic, some also
contain high levels of its inorganic form, as is commonly pointed out for Hijiki. Thus, regular
ingestion of these supplements must also take into account the mentioned facts. There is no doubt
that these supplements are also good sources of other nutrients, but the lack of accurate regulations
and control should alert consumers to avoid indiscriminate use of these types of productsinfo:eu-repo/semantics/publishedVersio
A Transcriptomic Approach to Understanding the Combined Impacts of Supra-Optimal Temperatures and CO2 Revealed Different Responses in the Polyploid Coffea arabica and Its Diploid Progenitor C. canephora
Understanding the effect of extreme temperatures and elevated air (CO2) is crucial for
mitigating the impacts of the coffee industry. In this work, leaf transcriptomic changes were evaluated
in the diploid C. canephora and its polyploid C. arabica, grown at 25 C and at two supra-optimal
temperatures (37 C, 42 C), under ambient (aCO2) or elevated air CO2 (eCO2). Both species
expressed fewer genes as temperature rose, although a high number of differentially expressed genes
(DEGs) were observed, especially at 42 C. An enrichment analysis revealed that the two species
reacted differently to the high temperatures but with an overall up-regulation of the photosynthetic
machinery until 37 C. Although eCO2 helped to release stress, 42 C had a severe impact on
both species. A total of 667 photosynthetic and biochemical related-DEGs were altered with high
temperatures and eCO2, which may be used as key probe genes in future studies. This was mostly
felt in C. arabica, where genes related to ribulose-bisphosphate carboxylase (RuBisCO) activity,
chlorophyll a-b binding, and the reaction centres of photosystems I and II were down-regulated,
especially under 42 C, regardless of CO2. Transcriptomic changes showed that both species were
strongly affected by the highest temperature, although they can endure higher temperatures (37 C)
than previously assumed.info:eu-repo/semantics/publishedVersio
Phenotypic Diversity of Seminal Root Traits in Bread Wheat Germplasm from Different Origins
Publisher Copyright: © 2022 by the authors.Bread wheat (Triticum aestivum L.) is a major staple crop, and more adapted varieties are needed to ensure productivity under unpredictable stress scenarios resulting from climate changes. In the development of new genotypes, root system traits are essential since roots have a key function in water and nutrient uptake, and root architecture determines the plant’s ability to spatially explore the soil resources. Genetic variation in wheat root system may be assessed at the early stages of development. This study evaluates in vitro and at the seedling stage, the genetic diversity of root growth angle (RGA), seminal root number (SRN), and radicle length (RadL) in 30 bread wheat genotypes from different origins and belonging to distinct evolutive or breeding groups. SRN and RadL were analyzed at 1, 2, 3 and 6 days after sowing (DAS) and RGA was measured through the angle between the first pair of seminal roots. A large variability was found in RGA values that ranged from 63° to 122°. Although differences were found between genotypes within the same groups, the narrower angles tended to occur among landraces, while the higher RGA values were observed in advanced lines and Australian varieties. Differences were also observed as regards the SRN (1.0–3.0, 2.7–4.7, 3.2–5.0 and 4.4–6.3 at 1, 2, 3 and 6 DAS, respectively) and RadL (0.1–1.5, 2.1–5.0, 4.0–7.5 and 5.1–13.7 cm at 1, 2, 3 and 6 DAS, respectively). Genetic variability in root traits at seedling stage allows more rapid selection of genotypes better adapted to environmental and soil constraints, necessary to Portuguese Wheat Breeding Program. It will also contribute to the definition of wheat ideotypes with improved performance under Mediterranean climate conditions.publishersversionpublishe
Unveiling the Impact of Growth Traits on the Yield of Bread Wheat Germplasm Subjected to Waterlogging
Publisher Copyright:
© 2024 by the authors.Changes in the climate have led to the occurrence of extreme events that threaten the production of major crops, namely that of bread wheat (Triticum aestivum L.). Waterlogging imposed at the tillering stage can severely affect the yield, but several genotype features may counterbalance the negative impacts on yields. The aim of this work was to evaluate the effect of waterlogging on the number of fertile spikes, kernels per plant, and single kernel weight, as well as to assess the main culm and tiller participation in yields. We also investigated if the growth stages affected by stress would influence such traits. The study was conducted in climatized growth chambers using 23 genotypes from five distinct germplasm groups (Portuguese landraces, varieties with the introduced Italian germplasm, post-Green Revolution varieties with the introduced CIMMYT germplasm, advanced lines from the Portuguese wheat breeding program, Australian varieties). Variability was observed between and within the groups. Ten genotypes performed well under waterlogged conditions, showing promising results. Among these, GR-2 showed a rise in tiller yield, AdvL-3 in both the main culm and tiller yield, and the remaining ones displayed unaltered values in both the main culm and tillers. PL-1, PL-5, GR-1, GR-3, AdvL-2, Austrl-2, and Austrl-4 were able to compensate for the decreases observed for several traits, reaching harvest yield values that were unaffected in both the main culm and tillers. Rises in the tiller yield or in the tillers and main culm, GR-2 and AdvL-3 exhibited either stability or increases in all the studied parameters. Results also suggest a negative correlation between the growth stage reached during waterlogging and the effect of this stress on the number of spikes per plant, plant and tiller yield, kernel per spike (tillers), and single kernel weight (tillers). Our findings may contribute to a better understanding of wheat responses to waterlogging and to the development of solutions that mitigate the socio-economic impacts of 20–50% wheat yield reductions, thereby preserving the daily 20% supply of energy and protein required for human nutrition and global food security.publishersversionpublishe
Mineral Monitorization in Different Tissues of Solanum tuberosum L. during Calcium Biofortification Process
Calcium is one of the 16 essential elements for plants, being required as Ca2+ and being
involved in several fundamental processes (namely, in the stability and integrity of the cell wall, the
development of plant tissue, cell division, and in stress responses). Moreover, Ca plays an important
role in potato production. In this context, this study aimed to monitor the culture development
(in situ and using an unmanned aerial vehicle (UAV)) and the mineral content of four essential
elements (Ca, P, K, and S) in different organs of Solanum tuberosum L. (roots, stems, leaves, and tubers)
during a calcium biofortification process, carried out with two types of solutions (CaCl2 and Ca-
EDTA) with two concentrations (12 and 24 kg ha1). The calcium content generally increased in the
S. tuberosum L. organs of both varieties and showed, after the last foliar application, an increase in Ca
content that varied between 5.7–95.6% and 20.7–33%, for the Picasso and Agria varieties, respectively.
The patterns of accumulation in both varieties during the biofortification process were different
between the variety and mineral element. Regarding the quality analysis carried out during the
development of the tubers, only the Agria variety was suitable for industrial processing after the last
foliar applicationinfo:eu-repo/semantics/publishedVersio
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