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Resources, Volume 13, Issue 6 (June 2024) – 6 articles

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19 pages, 18402 KiB

Open AccessArticle

Post-Recycling Sodium Polyacrylate with Nanostructural Halloysite Additive as the Basic Components of the New Hybrid Soil Modifier—The Circular Economy Rules for SAP in Agriculture

by Piotr Sakiewicz, Krzysztof Piotrowski, Mariola Rajca and Szczepan Cieślak

Resources 2024, 13(6), 75; https://doi.org/10.3390/resources13060075 (registering DOI) - 31 May 2024

Abstract

Post-recycling sodium polyacrylate (SPA) derived from the selective recycling of personal hygiene products was tested as a potential key component of soil modifiers. Recycled SPA in combination with layered aluminosilicate (halloysite) with the sorption capacity of fertilizers allows for the creation of a fully functional, original system responsible for both water retention in soil and controlled dosing of fertilizers. The use of post-recycling SPA (possibly partially supplemented with virgin SPA) is advantageous for the natural environment. The results of different water types retention in post-recycling SPA (deionized water, rainwater, tap water) are discussed. The most beneficial effects of R-SPA swelling and water accumulation are achieved when it comes into contact with rainwater. The clear impact of Mg²⁺ ions on the sorption capacity of R-SPA introduces the need for a technological compromise between the solution composition (N, P, K or N, P, K, Mg) affecting its fertilization value and the possibility of obtaining maximum R-SPA swelling. The sorption capacity of R-SPA can be slightly increased by using R-SPA/V-SPA mixtures, but R-SPA still plays a decisive role in this system. The possibility of technological adjustment of the leaching rate of fertilizer components under dynamic conditions using different combinations of (R-SPA/V-SPA)/HAL was demonstrated by column tests. Full article

(This article belongs to the Topic Innovative and Critical Issues in Natural Resource Management and Exploitation)

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17 pages, 2815 KiB

Open AccessArticle

Growth of Clones of Eucalyptus urophylla in Two Contrasting Soil Conditions in Plantations of Southeastern Mexico

by Secundino Torres-Lamas, Pablo Martínez-Zurimendi, Marynor Elena Ortega-Ramírez, Manuel Jesús Cach-Pérez and Marivel Domínguez-Domínguez

Resources 2024, 13(6), 74; https://doi.org/10.3390/resources13060074 (registering DOI) - 30 May 2024

Abstract

Eucalyptus urophylla is important for the establishment of commercial forest plantations in Mexico. Genetic improvement programs are currently being implemented to increase timber productivity. The objectives of this study were to evaluate the adaptability and growth stability of 26 clonal lines of E. urophylla in Acrisol and Fluvisol soils and to identify the most suitable genotypes for each soil type. Tree survival, diameter at breast height, and total height were measured annually for six years. These variables were used to estimate individual volume, volume per hectare, and mean annual (MAIv) and current annual (CAIv) volume increment. Survival ranged from 14 to 100% in the Acrisol soil and from 0 to 89% in the Fluvisol soil. Volume per hectare ranged from 65.3 to 488.7 m³, MAIv from 11.1 to 83.1 m³ ha⁻¹ year⁻¹, and CAIv from 2.4 to 134.7 m³ ha⁻¹ year⁻¹. Individual heritability (

H_{i}^{2}

) was moderate (0.29–0.49) while the mean heritability of the cloned lines was high (0.73–0.90), indicating that growth is subject to high genetic control. Diameter, height, and volume presented no genotype × environment interaction effects, demonstrating stability in the growth of the clonal lines in both soil types. Full article

17 pages, 5032 KiB

Open AccessArticle

Element Cycling at Thermally Active Coal-Waste Dumps: A Case Study of Calamagrostis epigejos and Solidago canadensis

by Anna K. Abramowicz and Oimahmad Rahmonov

Resources 2024, 13(6), 73; https://doi.org/10.3390/resources13060073 (registering DOI) - 30 May 2024

Viewed by 71

Abstract

Coal-waste dumps in the Upper Silesian Coal Basin are usually colonized by tall grass Calamagrostis epigejos and Solidago canadensis, which influence the direction of vegetation formation and the soil chemistry. The aim of this study is to analyze and determine the content of major elements (Fe, Ca, P, Mg, Al, Na, K, S) and trace elements (Mo, Cu, Pb, Zn, Ni, Co, Mn, Sr, Cd, Cr) in aboveground and underground parts of the plants and the soil at the thermally active coal-waste dump. Analysis of the heavy metal concentrations reveals that they are higher in plant materials than in soil materials within the root zone of the plants. Environmental indicator analysis (geoaccumulation index, enrichment factor, translocation factor) shows that the studied species exhibit varying degrees of pollution, with cadmium and zinc showing the highest accumulation rates. The content of elements in the analyzed species, both in washed and unwashed specimens, does not show significant differences, which is confirmed by the enrichment factor. Statistical analysis shows a positive correlation between the amount of microelements in plants (roots, aerial part) and soil samples in both thermally active and inactive zones. These findings broaden the scientific inquiry and hold practical significance for the reclamation of post-industrial areas. Full article

(This article belongs to the Special Issue Mineral Resource Management 2023: Assessment, Mining and Processing)

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20 pages, 2504 KiB

Open AccessFeature PaperArticle

Mediterranean Wild Pear Fruits as a Neglected but Valuable Source of Phenolic Compounds

by Maria Giovanna Molinu, Federico Sanna, Guy D’hallewin, Giovanni Antonio Re, Leonardo Sulas and Giovanna Piluzza

Resources 2024, 13(6), 72; https://doi.org/10.3390/resources13060072 (registering DOI) - 30 May 2024

Viewed by 113

Abstract

The genus Pyrus has a long history in Sardinia (Italy), where two wild pear species (P. spinosa Forssk. and P. pyraster (L.) Burgsd.) and Pyrus communis L. cultivars are extensively distributed. Even if neglected, these taxa represent well-adapted key resources for redesigning sustainable farming systems. This report aims at shedding light on the phenolic fingerprint and antioxidant properties of wild pear fruits and comparing their traits with those of the studied pear cultivar germplasm (PCG). Fruits of wild pear species were collected, and flesh, peel, and core subsamples were analyzed. Moreover, available data from previous research on PCG were analyzed. The contents of total phenolics (TotP), total flavonoids (TotF), and condensed tannins (CT), as well as the antioxidant capacity, were similar in the flesh of the two wild species. However, P. spinosa had significantly higher values of TotP (89 g GAE kg⁻¹ DM) and CT (33 g DE kg⁻¹ DM) in the peel. Eleven individual phenolic compounds were identified and quantified in the fruit flesh, 14 in both peel and core. For both wild species, arbutin and chlorogenic acid were the main phenolic compounds, followed by the quercetin glycosides. Comparing the antioxidant capacity and TotF fruit flesh values of wild pears with those of PCG, the latter resulted up to 15-fold lower. The wild types showed unique metabolite profiles. Results support novel insights on the phytochemicals of wild pear fruits. Full article

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22 pages, 7322 KiB

Open AccessArticle

Why Do Small Earth Dams Deteriorate: Insights from Physical Investigations in the West African Sahel

by Mamadou Pousga Junior Kaboré, Abdou Lawane, Roland Yonaba, Angelbert Chabi Biaou, Abdoulaye Nadjibou and Anne Pantet

Resources 2024, 13(6), 71; https://doi.org/10.3390/resources13060071 (registering DOI) - 29 May 2024

Viewed by 224

Abstract

In West Africa, the construction of small earth dams is common against water scarcity. Burkina Faso, an inland country in West Africa, is home to 1001 dams that serve agricultural and pastoral needs. These embankments are predominantly made of compacted laterite, a cost-effective material abundant in over 2/3 of the country. However, these dams degrade over time, hindering their functionality. This study aims to establish a catalog of typical degradation occurring on small dams in Burkina Faso, which is virtually non-existent in the region while identifying and analyzing the potential causes. The study uses a diagnostic analysis followed up with technical visits on a representative sample of 24 dams in the Centre and Centre-South regions as a basis for future studies. The results reveal that these dams were constructed between 1965 and 2018, with capacities ranging from 150,000 to 4,740,000 m³. 33% of these dams have undergone total failure, likely attributed to factors such as internal erosion, pore overpressures, settlement, and deformation. Although 67% of the dams remain functional, their structural integrity could be improved. Erosion observed in riprap indicates vulnerability during high flood periods. Additionally, the absence of proper maintenance, as shown by the vegetation development weakening embankments, contributes to deterioration. The analysis also suggests that variability in construction techniques and lateritic material properties across time and regions may further exacerbate degradation. These findings inform infrastructure improvements and policy development for sustainable water resource management in Burkina Faso and similar regions. Full article

24 pages, 5415 KiB

Open AccessReview

Plant-Based Extracts as Reducing, Capping, and Stabilizing Agents for the Green Synthesis of Inorganic Nanoparticles

by Zuamí Villagrán, Luis Miguel Anaya-Esparza, Carlos Arnulfo Velázquez-Carriles, Jorge Manuel Silva-Jara, José Martín Ruvalcaba-Gómez, Edward F. Aurora-Vigo, Ernesto Rodríguez-Lafitte, Noé Rodríguez-Barajas, Iván Balderas-León and Fernando Martínez-Esquivias

Resources 2024, 13(6), 70; https://doi.org/10.3390/resources13060070 - 26 May 2024

Viewed by 555

Abstract

The synthesis of inorganic nanoparticles for diverse applications is an active research area that involves physical and chemical methods, which typically are expensive, involve hazardous chemical reagents, use complex equipment and synthesis conditions, and consume large amounts of time and energy. Thus, green synthesis methods have emerged as eco-friendly and easy alternatives for inorganic nanoparticle synthesis, particularly the use of plant-based extracts from fruit juice, leaves, seeds, peel, stem, barks, and roots, which act as reducing, capping, and stabilizing agents, contributing to the Sustainable Development Goals and circular economy principles. Therefore, diverse inorganic nanoparticles have been synthesized using plant-based extracts, including gold, silver, titanium dioxide, zinc, copper, platinum, zirconium, iron, selenium, magnesium, nickel, sulfur, cobalt, palladium, and indium nanoparticles, which exhibit different biological activities such as antioxidant, antimicrobial, dye degradation, cytotoxic, analgesic, sedative, wound-healing, skin protection, sensor development, and plant-growth-promoting effects. Therefore, this review summarizes the advantages and limitations of plant-based extracts as reducing, capping, and stabilizing agents for inorganic nanoparticle green synthesis. Full article

(This article belongs to the Special Issue Alternative Use of Biological Resources)

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