Your search keyword '"Raimundo Jiménez"' showing total 250 results

1. Improvement of soil quality through biochar in rice under wastewater irrigated soil: Effects on heavy metals reduction

Author

Sayon Mukherjee, Satish Kumar Singh, Raimundo Jiménez Ballesta, Abhik Patra, and Surendra Singh Jatav

Subjects

Biochar, Contamination, Heavy metals, Rice, Translocation, Agriculture (General), S1-972, Environmental technology. Sanitary engineering, TD1-1066

Abstract

Purpose: Rice, a global staple, can accumulate high levels of heavy metals especially Chromium (Cr) when grown in a soil irrigated with tannery effluent over time, potentially reaching toxic levels for human consumption. Biochar offers a cost-effective solution by binding these heavy metals in soil, reducing their bioavailability and mitigating health risks. The present study offers a two-way solution of reducing weed load of agricultural fields through parthenium biochar preparation and its application in Cr contaminated soil with aim of its lower accumulation in the edible part of the crop. Method: The investigation consists of ten treatments in completely randomized design with three replications using simple and concentrated H3PO4 and 1 M FeCl3 modified biochar at graded dose and one biochar untreated control. All treatments receive a recommended dose of NPK fertilizers. Results: Our study shows that biochar produced from parthenium can reduce uptake of heavy metals in the plant body. Moreover, modification of biochar by H3PO4 and FeCl3 hastened the metal fixation and further reduced the metals accumulation in different parts of plant body depicted by lowering translocation factor (TF) along with translocation coefficient (TC). Conclusion: Overall, application of biochar is proven to reduce the metals accumulation in rice plant parts and grains rendering it a good amendment. Research Highlights • Biochar and its subsequent modification reduce the heavy metals content in different plant parts of rice • Application of H3PO4 modified biochar at 10 t ha-1 has declined the root concentration of Cr alone by 24.5% • FeCl3 modified biochar also reduced all heavy metals uptake in different plant parts • Performance of modified biochar at lower rates can produce statistically similar results with the higher dose of simple biochar • Reduction of translocation coefficient and translocation factor within plant emphasizes the beneficial effect of biochar application to crop

Published

2024

2. A comprehensive review of composting from coffee waste: Revalori-sation of coffee residue in Colombia

Author

Juan Manuel Trujillo-González, Raimundo Jiménez-Ballesta, Amanda Silva-Parra, Marco Aurelio Torres-Mora, and Francisco J. García Navarro

Subjects

coffee by-products, agro-industrial coffee residues, reutilisation, spent coffee grounds, valorisation, Agriculture (General), S1-972, Environmental technology. Sanitary engineering, TD1-1066

Abstract

Purpose: Globally, Colombia is recognized as a coffee-growing country par excellence, which entails generating a large amount of coffee waste. This narrative study aims to review the possible use of such coffee waste to obtain nutrient-rich compost following key composting processes. The final is to investigate the importance and suitability of this compost type. Method: The data collected for this study were from reviewing the scientific literature and research reports available in many reputable academic databases, i.e., Science Direct, Springer, PubMed, and Scopus. Reputable academic search engines like Google Scholar and ResearchGate were used to access relevant research and high-quality scientific documents. Results: The result revealed that using combinations of agro-industrial coffee waste when composted can be applied in agriculture because it provides wide-ranging nutrients, which can fertilize soil, accelerate plant growth, and even improve the nutrient content of vegetables. The SCGs used in agriculture prevent improper waste disposal by decreasing the pollution caused by the degradation of SCGs’ toxic components. Here we explore and review composting processes containing coffee waste. Conclusion: Employing coffee waste for compost implies benefits compared to landfills. The conversion of this coffee biomass waste into compost, and using it as a soil amendment, can reduce the waste volume, improve soil physico-chemical properties, enhance the nutrient use efficiency of crops, and correct the typical soil acidity of Colombian soils used for coffee production. Highlights · Colombia is recognized as the coffee-growing country par excellence. · The coffee agro-industry generates large quantities of solid waste. · Composting coffee biomass waste can act as soil amendment and enhances physico-chemical properties. · Composting is a highly effective remedy for environmental issues.

Published

2024

3. Orbicularis oculi muscle activity during computer reading under different degrees of artificially-induced aniseikonia

Author

Beatriz Redondo, Jesus Vera, Rubén Molina, Alejandro Molina-Molina, and Raimundo Jiménez

Subjects

Visual fatigue, Aniseikonia, Orbicularis oculi muscle activity, Medicine, Biology (General), QH301-705.5

Abstract

Background Aniseikonia is a binocular vision disorder that has been associated with asthenopic symptoms. However, asthenopia has been evaluated with subjective tests that make difficult to determine the level of aniseikonia. This study aims to objectively evaluate the impact of induced aniseikonia at different levels on visual fatigue by measuring the orbicularis oculi muscle activity in the dominant and non-dominant eyes while performing a reading task. Methods Twenty-four collegiate students (24.00 ± 3.86 years) participated in this study. Participants read a passage for 7 minutes under four degrees of aniseikonia (0%, 3%, 5% and 10%) at 50 cm. Orbicularis oculi muscle activity of the dominant and non-dominant eye was recorded by surface electromyography. In addition, visual discomfort was assessed after each task by completing a questionnaire. Results Orbicularis oculi muscle activity increased under induced aniseikonia (i.e., greater values for the 10% condition in comparison to 0%, and 3% conditions (p = 0.034 and p = 0.023, respectively)). No statistically significant differences were observed in orbicularis oculi muscle activity for the time on task and between the dominant and non-dominant eyes. Additionally, higher levels of subjective visual discomfort were observed for lower degrees of induced aniseikonia. Conclusion Induced aniseikonia increases visual fatigue at high aniseikonia degrees as measured by the orbicularis oculi muscle activity, and at low degrees as measured with subjective questionnaires. These findings may be of relevance to better understand the visual symptomatology of aniseikonia.

Published

2024

4. Organic Carbon Storage in Waterlogging Soils in Ávila, Spain: A Traditional Agrosilvopastoral Region

Author

María P. Alvarez-Castellanos, Laura Escudero-Campos, Jorge Mongil-Manso, Francisco J. San Jose, Adrián Jiménez-Sánchez, and Raimundo Jiménez-Ballesta

Subjects

climate change, forestation, soil organic matter, soil carbon sequestration, Pinus pinaster, grassland, Agriculture

Abstract

Soils play a crucial role in the protection, management, and ecological understanding of the La Moraña region, located in Ávila province, Central Spain, which has a moderate population, traditional agriculture, livestock farming, and low industrial activity, resulting in relatively low environmental degradation. The region’s soils often experience prolonged water stagnation, influencing its agronomy, ecology, and economy. This study aimed to estimate and understand the soil’s role in the C sequestration of an agrosilvopastoral system under conditions of temporary water stagnation and different land uses. The results showed that ryegrass-magaza and Pinus pinaster show more content in soil carbon sequestration storage (98.7 and 92.4 Mg per hectare) compared to the adjacent degraded rangeland (75.8 and 63.9 Mg ha−1). Arenosols exhibited a higher total amount of SOC stocks. The soil profile with ryegrass sequestered more nitrogen (9.7 Mg ha−1) than other land uses; moreover, Arenosols have a lower nitrogen sequestration capacity even in low-forest conditions. The study highlights significant differences in carbon accumulation due to the management practices, temporary water layers, and parent material.

Published

2024

5. The Clay Minerals in the Soils of the Gypseous Belt of Barbastro, NE Spain

Author

Juan Herrero, Raimundo Jiménez-Ballesta, and Carmen Castañeda

Subjects

gypseous soils, clay mineralogy, mica, chlorite, smectite, clay pedogenesis, Agriculture

Abstract

This article examines the clay mineralogy of twelve representative soils developed from gypsum-rich parent materials on several geomorphic positions. These soils were classified as Haploxerept, plus one profile as Humixerept and another as Xerorthent. The clay mineralogy, determined by X-ray diffraction, showed quite a similar clay composition in all profiles, with mica, chlorite, and smectite, from most to less abundant. Mica and chlorite are deemed inherited, while smectite—appearing in minor proportions—could result from both transformation and/or neoformation, because the leaching of bases by free drainage does not favor the transformation of mica to smectite. Therefore, the differences in clay mineralogy appeared to be lithogenic rather than pedogenic. These compositional data are an advance in the basic knowledge of the studied soils.

Published

2024

6. Characterization of persistent organic contaminants in the atmosphere of Gadani's ship breaking yards and its surrounding: Implications for sustainable ship recycling practices

Author

Abdul Shakoor Khan, Said Akbar Khan, Asim Abbasi, Dina Hajjar, Arwa A. Makki, Hanan Almahasheer, Ali R.A. Moursy, and Raimundo Jiménez-Ballesta

Subjects

Organic pollutants, Shipbreaking, Settlements, PCBs, SCCPs, PAHs, Environmental sciences, GE1-350

Abstract

Gadani is internationally renowned for its extensive ship-breaking operations, positioning it as one of the globe's primary ship-breaking hubs. A comprehensive study was conducted to evaluate the presence of organic contaminants in the air within Gadani, encompassing the areas surrounding ship-breaking facilities, proximate residential settlements, and adjacent roadways. Passive air samplers were employed to collect a total of 30 air samples. The analytical results unveiled a notably elevated concentration of specific organic compounds, with a pronounced prevalence of polycyclic aromatic hydrocarbons (PAHs), short-chain chlorinated paraffins (SCCPs), and polychlorinated biphenyls (PCBs) at the ship-breaking yard. Notably, dichlorodiphenyltrichloroethanes (DDTs) and DDE were detected at substantially lower levels. In particular, sites in close proximity to ship-breaking activities exhibited elevated concentrations of PCBs (Σ7PCB 0.065429 to 7.345714 ng/sample), PAHs (Σ8PAH 2.44 to 134.23 ng/sample), and SCCPs (0.18 to 25.6 ng/sample). Conversely, DDTs and DDE demonstrated higher concentrations near residential settlements. The evaluation of Molecular Diagnostic Ratios for PAHs revealed anthracene/anthracene + phenanthrene ratios of 0.88, 0.69, and 0.5 for ship-breaking areas, roadside locations, and community surroundings, respectively. Furthermore, the benz[a]anthracene/benz-[a]anthracene + chrysene molecular ratios were measured at 0.77 (ship-breaking sites), 0.82 (roadside), and 0.83 (community), respectively. The molecular ratio of fluoranthene/fluoranthene + pyrene at ship-breaking sites was 0.23, while roadside and community ratios were 0.36 and 0.89, respectively. These findings underscore the significant contribution of ship-recycling activities to the atmospheric release of SCCPs, PCBs, and PAHs, emphasizing the global imperative for responsible ship recycling practices.

Published

2024

7. On the Scarce Occurrence of Arsenic in Vineyard Soils of Castilla La Mancha: Between the Null Tolerance of Vine Plants and Clean Vineyards

Author

Raimundo Jiménez-Ballesta, Francisco J. García-Navarro, José A. Amorós, Caridad Pérez-de-los-Reyes, and Sandra Bravo

Subjects

arsenic, bioconcentration factor, risk minimization, vineyards, soils, sustainability, Environmental pollution, TD172-193.5

Abstract

Arsenic (As), a widely distributed metalloid in the Earth’s crust, constitutes one of the most significant environmental contaminants today. This study was carried out to determine As concentrations in the soils of a Castilla La Mancha (CLM; Spain) benchmark collection that represents all the soil orders (soil taxonomy) in this territory. It also examined vine plant tolerance to As in relation to soil concentration. For this purpose, soils and leaves from vineyards were collected from 10 locations in the CLM community. The bioconcentration factor (BCF) of As in vineyards was assessed. The results of the present study show that As content in soils is widely variable, and is fundamentally related to soil type and parent material. The most surprising point is that, although some vineyards have been treated with As derivatives, the vast majority of them do not accumulate any amount of As. This important finding must be used to enhance the quality of the final obtained product: wine. In other words, CLM wines are not at risk of As contamination and must, therefore, be clean wines. Our results suggest that CLM vineyards are clean of contamination by As because this element in leaves reveals null vine capacity to accumulate As, a process that derives from scarce As in soils and the traditional practices carried out by winegrowers.

Published

2023

8. Pedological formations on old mountain geomorphological surfaces of central Spain

Author

Raimundo Jiménez-Ballesta, Sandra Bravo, Caridad Pérez-de-los-Reyes, Jose A. Amorós, Jaime Villena, and Francisco J. García-Navarro

Subjects

Vineyard, Old surfaces, Acid soils, Alfisols, Pedogenesis, Weathering indices, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

The chemo-morphological properties of soils on ancient landforms (quarzitic pliocene alluvial fans, pleistocene terraces), namely “rañizos”, on middle-high mountains (Eastern-Central System, Iberian Peninsula, Rio Negro, Cogolludo) were investigated. Several properties were analyzed by standard procedures. A detailed soil diagnostics and classification on “rañizos” were done, unlike those widely studied on “rañas” (similar landform), by identifying parallel pedogenetic processes in both formations. The genetic and geographic features of Alfisols, Ultisols and Inceptisols are closely related to the nature of their parent materials, based on quartzite and quartz conglomerates, sometimes with an arkosic matrix, red shale, polygenic gravels and pebbles. Soil features were determined by genuine soil-forming inherent lithological rock properties. Other driving factors were flat topography and enough soil formation time to allow intense pedogenesis. The main soil-forming processes were intense weathering, clay enrichment horizons with illuviation, red color caused by iron oxide dehydration and signs of pseudogleyzation processes. Such pedological formations can be considered endemisms; that is, “rare” soils and, up to a point, “relict”. The soil reaction is acid/slightly acid with low base saturation. Despite lying on mountains, soils are characterized by moderate-low organic matter content. Soil conditions and climate provide good vine production requirements despite acidity levels. A common feature of all Rio Negro soils is the presence of gravel (size up to 3–5 cm), which is evenly distributed on arable layers. The results can be used to assess vineyard soil use in a potential Pago (Protected Denomination of Origin) and to extend the database of vineyard soils from poorly studied Mediterranean continental mountain regions.

Published

2024

9. Biological substances as stimulants-inducing growth, flowering, and chemical constituents in Dahlia plants

Author

Eman A. Swedan, Mohamed A. A. Ahmed, Raimundo Jiménez-Ballesta, and Ramy G. El-Kinany

Subjects

Dahlia pinnata, Moringa oleifera leaf extracts, salicylic acid, ascorbic acid, growth, flowering, Agriculture, Food processing and manufacture, TP368-456

Abstract

AbstractA potting experiment was conducted was carried out during the two consecutive seasons of 2020/2021 and 2021/2022 to investigate the impact of various bio-stimulant treatments, specifically salicylic acid (SA), ascorbic acid (AA), and Moringa oleifera leaf extract (MLE), as well as their combinations on plant growth, flowering and chemical composition of Dahlia pinnata plants cultivated in sandy soils. The study utilized an experimental design followed by a complete block design with three replications having eight treatments as follows: control, 300 mg/l SA, 300 mg/l AA, 10 mg/l MLE, SA+AA, SA+MLE, AA+MLE, and SA+AA+MLE. The results indicated that the application of various bio-stimulant treatments, either individually or in combination, resulted in enhanced vegetative growth characteristics, flowering attributes, and tuberous root production, as well as improved chemical constituents when compared to untreated plants. In addition, the most effective treatment combinations were found to be MLE + SA + AA, followed by SA + MLE, based on overall outcomes.

Published

2023

10. Morphological and physio-biochemical responses under heat stress in cotton: Overview

Author

Aamir Ali Abro, Muhammad Anwar, Muhammad Umer Javwad, Mjie Zhang, Fang Liu, Raimundo Jiménez-Ballesta, Ehab A. A. Salama, and Mohamed A. A. Ahmed

Subjects

Cash crop, Climatic changes, Morphological, Physio-biochemical, Genetics, Fiber quality, Biotechnology, TP248.13-248.65

Abstract

Cotton is an important cash crop in addition to being a fiber commodity, and it plays an essential part in the economies of numerous nations. High temperature is the most critical element affecting its yield from fertilization to harvest. The optimal temperature for root formation is 30 C -35 °C; however, root development ends around 40 °C. Increased temperature, in particular, influences different biochemical and physiological processes associated with cotton plant, resulting in low seed cotton production. Many studies in various agroecological zones used various agronomic strategies and contemporary breeding techniques to reduce heat stress and improve cotton productivity. To attain desired traits, cotton breeders should investigate all potential possibilities, such as generating superior cultivars by traditional breeding, employing molecular techniques and transgenic methods, such as using genome editing techniques. The main objective of this review is to provide the recent information on the environmental factors, such as temperature, heat and drought, influence the growth and development, morphology and physio-chemical alteration associated with cotton. Furthermore, recent advancement in cotton breeding to combat the serious threat of drought and heat stress.

Published

2023

11. Unravelling the Concentrations of Five Rare Earth Elements in Two Vineyard Red Soils

Author

Raimundo Jiménez-Ballesta, Francisco J. García-Navarro, José A. Amorós, Caridad Pérez-de-los-Reyes, and Sandra Bravo

Subjects

lanthanides, contamination, calcareous soils, red soils, distribution, REE enrichment, Environmental pollution, TD172-193.5

Abstract

The La Mancha region is a primary food production area in central Spain, with extensive zones used as vineyards. This article aims to present information about rare earth elements’ (REEs) contents and deals with their distribution in two representative soil profiles (Alfisols) in this area. The presence of carbonates and a semiarid climate are its main characteristic environmental factors. Lanthanum (La), Cerium (Ce), Neodymium (Nd), Scandium (Sc) and Yttrium (Y) concentrations were determined using X-ray fluorescence spectroscopy (XRF). The results revealed the following maximum REEs’ contents (mg·kg–1): Ce 93.3, La 46.8, Nd 38.6, Y 25.5 and Sc 13.0. The REEs’ concentrations in the two soil profiles were in the following order: Ce > La > Nd > Y > Sc. The application of fungicides and the addition of fertilisers in vineyards can increase the soil concentration of rare earths up to this region’s normal background levels. According to the Geo-Accumulation Index (Igeo), soil samples were non-contaminated or slightly contaminated by REEs.

Published

2023

12. Soil Carbon Storage, Enzymatic Stoichiometry, and Ecosystem Functions in Indian Himalayan Legume-Diversified Pastures

Author

Avijit Ghosh, Suheel Ahmad, Amit K. Singh, Pramod Jha, Rajendra Kumar Yadav, Raimundo Jiménez Ballesta, Sheeraz Saleem Bhatt, Nagaratna Biradar, and Nazim Hamid Mir

Subjects

temperate pasture, soil organic carbon, microbial functions, legume diversification, ecosystem services, Agriculture

Abstract

The influences of legume diversification on soil carbon (C) pools and sequestration, particularly in Himalayan pastureland, remain poorly understood. Moreover, the impact of legume diversification activities and the stoichiometry of soil enzymes in C biogeochemistry at the ecosystem level remains largely overlooked. The purpose of this study is to investigate the influences of legume diversification on activities and the stoichiometry of soil enzymes and their control of C sequestration in pasturelands. Four experimental fertilized species combinations, namely, SG (50% Festuca arundinacea + 50% Dactylis glomerata), SGL1 (25% Festuca arundinacea + 25% Dactylis glomerata + 50% Onobrychis viciifolia), SGL2 (25% Festuca arundinacea + 25% Dactylis glomerata + 50% Trifolium pratense), SGL12 (25% Festuca arundinacea + 25% Dactylis glomerata + 25% Onobrychis viciifolia + 25% Trifolium pratense), and natural pasture (NG) were compared. Soils under SGL1, SGL2, and SG12 had ~18, 36, and 22% greater soil C than SG, respectively. Among the pastures with fertilization, the C mineralization was suppressed by legume diversification. C sequestration under SGL1, SGL2, and SG12 was ~27, 22, and 38% higher than SG, respectively, at the 0–30 cm soil layer. The ratios of DHA are as follows: for PhOX and DHA, PerOX significantly decreased with an increasing grass–legume mixture, suggesting greater C sequestration. PCA analysis revealed that C sequestration under legume diversification and enzymatic stoichiometry had an indirect but substantial impact on C sequestration. The increasing C sequestration under SGL12 was complemented by higher productivity. Data suggested that increasing legumes in pastureland might greatly enhance ecosystem functions such as soil C storage, productivity, ecorestoration efficiency, and biological activity in Indian Himalayan pastureland.

Published

2024

13. An Ecological Overview of Halophytes and Salt-Affected Soils at El Hito Saline Pond (Central Spain): Baseline Study for Future Conservation–Rehabilitation Measures

Author

Raimundo Jiménez-Ballesta, Santos Cirujano-Bracamonte, Eduardo Palencia-Mayordomo, and Mario Álvarez-Soto

Subjects

semi-arid environment, Natura 2000 network, halophytic flora, salt stress, soil salinity, ecological environment, Agriculture

Abstract

In an attempt to boost the potential ecological viability of wetlands, this study aimed to discover the relationship between soil salinity and vegetation composition in a quasi-pristine saline pond, “El Hito Lagoon”. This wetland is situated in the largest continuous natural semi-arid steppe land of western Europe (specifically in Castilla La Mancha, Central Spain). Several soil profiles and a series of surface samples (0–10 cm) extracted from a systematic network throughout the saline pond were described, sampled, and analyzed. The most significant results included the detection of elevated levels of soil salinity, with distinctive sub-areas of extreme elevated surface salinity where the pH reading peaked at 9.89 and the electrical conductivity was higher than 40 (dS/m). The very high content of total available P displayed quite an irregular scatter within the soil profile. Specifically, the range oscillated between 8.57 mg/kg and 388.1 mg/kg, several samples having values greater than 100 mg/kg. An aspect that the abundant presence of Salsola soda, a plant frequently found growing in nutrient-rich wetlands, was able to confirm.

Published

2024

14. Risk Assessment of Heavy Metals in Acid Soils Collected from Different Agricultural Systems in the Piedemonte Llanero in Colombia

Author

Juan Manuel Trujillo-González, Deiver Alexis García-Bravo, Jose Ismael Rojas-Peña, Marlon Serrano-Gómez, Edgar Fernando Castillo-Monroy, Marco Aurelio Torres-Mora, Francisco J. García-Navarro, and Raimundo Jiménez-Ballesta

Subjects

contamination factor, pollution load index, nemerov integrated pollution index, geo-accumulation index, heavy metals, tropical soils, Technology, Engineering (General). Civil engineering (General), TA1-2040

Abstract

Agricultural soils may become polluted by heavy metals as a result of receiving a significant amount of pollutants from different sources of land applications, such as fertilizers, animal manure, sewage sludge, pesticides, and wastewater irrigation. Given that information on the distribution of heavy metals (HMs) in the Piedemonte Llanero of Colombia is still quite limited, the main objectives of this work were to characterize the content of these elements and their potential pollution level in acidic soils under different agricultural systems. The hypothesis is to verify if the type of land use poses an environmental threat. To achieve these goals, the concentrations of seven metals were determined in the soils of three agricultural production systems: oil palm, pastures, and semi-annual crops. Soil contamination was evaluated based on the Geo-Accumulation Index (I-geo), contamination factor (CF), Pollution Load Index (PLI), and Nemerov Integrated Pollution Index (NIPI). One outstanding result was that the average concentrations of HMs in the collected topsoil samples were as follows: Mn (110.5 mg kg-1), Zn (31.93 mg kg-1), Cr (8.85 mg kg-1), Ni (11.68 mg kg-1), Cu (11.28 mg kg-1), Pb (9.42 mg kg-1) and Cd (0.21 mg kg-1). The results obtained from this study provide an estimation of the pollution status of HMs. Agricultural activities, especially the overuse of phosphate fertilizer, were the main source of nutrients across the study area. This information can become a fundamental tool to establish monitoring and follow-up processes for sustainable soil management in the Piedemonte Llanero. In conclusion, the present study highlights and provides specific information in a hyperhumid environment.

Published

2023

15. A Comprehensive Review of Plastics in Agricultural Soils: A Case Study of Castilla y León (Spain) Farmlands

Author

Jorge Mongil-Manso, Raimundo Jiménez-Ballesta, Juan Manuel Trujillo-González, Ana San José Wery, and Alexandra Díez Méndez

Subjects

microplastics, plastic greenhouse, plastic mulch, plastic nets, plastic waste, Agriculture

Abstract

Plastics, especially microplastics, are a diverse group of polymer-based particles, currently emerging as a global environmental threat—plastic pollution. An attempt was made to search for the presence of plastics in soils, particularly in a traditionally agricultural region such as Castilla y León (CYL). This study aimed to evaluate the use of plastics in agricultural soils in general, with an emphasis on CYL, by analyzing the present state and future perspectives on the addition of plastic waste to some agricultural soils in CYL. Surprisingly, many agricultural soils, including arable lands, irrigation, and especially greenhouse soils, receive plastic residues every day, which can lead to contaminants. By analyzing government data, we discovered that the volume of plastic waste from intensive agriculture is increasing (49,131 t in 2020) and that the current management system does not meet the needs of the sector. From this review, it can be inferred that plastics affect cultivated soils in CYL; this could affect both the economy and the soil itself and, by extension, the trophic food chain, food, and human health.

Published

2023

16. Association of military-specific reaction time performance with physical fitness and visual skills

Author

Danica Janicijevic, Sergio Miras-Moreno, Alejandro Pérez Castilla, Jesus Vera, Beatriz Redondo, Raimundo Jiménez, and Amador García-Ramos

Subjects

Bench press, L-V relationship, Shuttle run test, Simple reaction time, Squat, Go, Medicine, Biology (General), QH301-705.5

Abstract

Background The aim of the present study was to explore whether military-specific reaction time (RT) test performance is affected by individuals’ physical and visual skills. Method In a single testing session, the military-specific Simple and Go, No-Go RT, aerobic power (20-m Multistage Shuttle Run test), maximal upper- and lower-body mechanical capacities (bench press and squat against different loads), and visual skills (multiple object tracking and dynamic visual acuity) of 30 young men (15 active-duty military personnel and 15 sport science students) were evaluated. Results The main findings revealed that the Simple RT and Go, No-Go RT presented (1) with aerobic power non-significant small correlations in military personnel (r = −0.39 and −0.35, respectively) and non-significant negligible correlations in sport science students (r = −0.10 and 0.06, respectively), (2) inconsistent and generally non-significant correlations with the maximal mechanical capacities of the upper- and lower-body muscles (r range = −0.10, 0.67 and −0.27, 0.48, respectively), (3) non-significant correlations with visual skills (r magnitude ≥ 0.58) with the only exception of the Go, No-Go RT that was significantly correlated to all visual variables in the group of students (i.e., students who achieved better results during visual tests had shorter RT; r magnitude ≥ 0.58), and (4) none of the physical and visual variables significantly predicted the Simple RT or Go, No-Go RT. Conclusion Altogether, these results indicate that military-specific RT performance is generally independent of physical and visual skills in both military personnel and active university students.

Published

2022

17. Effect of the application of compost as an organic fertilizer on a tomato crop (Solanum lycopersicum L.) produced in the field in the Lower Valley of the Río Negro (Argentina)

Author

Graciela Pellejero, Julieta Palacios, Emanuel Vela, Omar Gajardo, Luis Albrecht, Gabriela Aschkar, Amelia Chrorolque, Francisco J. García-Navarro, and Raimundo Jiménez-Ballesta

Subjects

compost amendment, organic manure, ecological, cow manure, plant nutrition, río negro, Agriculture (General), S1-972, Environmental technology. Sanitary engineering, TD1-1066

Abstract

Purpose The main objective of the study was to evaluate the application of different doses of onion residue compost as mixtures with bovine manure as organic fertilizers for a round tomato crop planted in the field. Method The data were obtained experimentally in pilot fields. The experimental design was completely randomized, with 4 m2 plots with ten plants each as an experimental unit and with three replications per treatment (2 years). Five treatments were tested, namely one unfertilized control, three with organic fertilization and one mineral treatment. The variables measured were plant height (cm), stem base diameter (cm), fresh plant weight (g) and total dry matter (%). The parameters measured for the fruit were fresh fruit weight (g), fruit length (mm), fruit width (mm) and total soluble solids. Results The application of compost from the degradation of onion residues as mixtures with cow manure had positive effects on the growth of the plant and on the development of tomato fruit. Compost doses of 60 Mg ha–1 and 80 Mg ha–1 gave similar values ​​to chemical treatment and the control without fertilization was significantly lower than those with doses of organic and chemical fertilizer. These results indicate that this compost contains the nutrients required by the tomato crop for growth and development. Conclusion It was concluded that the agricultural use of quality compost is an effective strategy to obtain high quality products in an economically viable and environmentally sustainable way.

Published

2021

18. A Comparison of Analytical Methods for the Determination of Soil pH: Case Study on Burned Soils in Northern Portugal

Author

Maria Faria, Tamires Bertocco, Ana Barroso, Manuela Carvalho, Felicia Fonseca, Cristina Delerue Matos, Tomás Figueiredo, Amália Sequeira Braga, Teresa Valente, and Raimundo Jiménez-Ballesta

Subjects

pH, analytical protocols, forest fires, burned soil, ANOVA, cost-effective method, Physics, QC1-999

Abstract

Wildfires can cause serious imbalances in ecosystems, primarily at the soil level, making it vulnerable to degradation processes such as erosion. During and after a fire, changes occur in soil properties, including pH, which affects the solubility and availability of nutrients. Currently, there is a great diversity of protocols, some involving normalized standards, to determine soil pH, but there is no consensual or universal analytical method for this parameter, especially in burned soils, in which mineral and organic fractions could have been modified. Therefore, the objective of the present work is to evaluate the effect that variations in these analytical protocols may have on pH results. For this, five methods commonly found in the international bibliography for the analysis of pH of soil in water (pHH2O) were selected and compared to propose the most precise procedure. The analytical methods were applied to 43 soil samples, collected in a plot subjected to prescribed burning in the Parque Natural de Montesinho (Northern Portugal). The studied methods differ in the following protocol items: water suspension ratio (1:2.5 or 1:5), mechanical stirring time in the suspension (10 min or 1 h), and in the resting time for the solid particles to settle (15 min or 8 h). The obtained results point to the suitability of the five methods used for soil pH analysis, indicating that there are no statistically significant differences. However, results also allow suggesting a more appropriate method concerning practical reasons, such as labor in a lab. Thus, to make the analysis process more profitable, M2 is a good option because it uses a small amount of sample (5 g), short agitation (10 min) and settling time (15 min). In turn, M1 and M5, which use a lower proportion of soil (1:2.5) show lower pH variation in the measurements. This fact may be explained by a smaller dilution effect. Considering that these two methods differ in the settling time, it is suggested to apply M1, because only 15 min are required. Therefore, the main conclusion reached with this work is that the measurement of soil pH using M1, i.e., a soil:water ratio of 1:2.5, with agitation of 10 min and settling time of 15 min, is a robust and more expeditious protocol to be applied to soil samples after a fire.

Published

2023

19. Visual function, performance, and processing of basketball players vs. sedentary individuals

Author

Jesús Vera, Raimundo Jiménez, David Cárdenas, Beatriz Redondo, and José Antonio García

Subjects

Exercise, Fitness level, Health, Heart rate variability, Visual skills, Team sport, Sports, GV557-1198.995, Sports medicine, RC1200-1245

Abstract

Background: Athletes tend to have better visuo-motor performance than do sedentary individuals. However, several basic visual-function and perceptual parameters remain unexplored to date. In this study, we investigated whether differences exist in visual function, performance, and processing between basketball players and individuals without a sport-involvement background. Methods: A total of 33 healthy men with no visual impairment or pathology were divided into 2 groups, depending on the involvement in sport (semi-professional basketball players and sedentary individuals). We tested their baseline heart-rate variability in the resting position apart from subjective questionnaires to determine their physical fitness level, and we checked their visual function, performance, and processing through an extended battery of optometric tests. Results: The 2 groups differed in resting heart-rate variability parameters (p < 0.001), confirming their dissimilarities in regular time practising sports per week. The basketball players showed a closer breakpoint and recovery nearpoint of convergence, a higher fusional-vergence rate, better discriminability halos, and better eye–hand coordination (all p values < 0.05). Conclusion: These results show evidence that athletes, basketball players in this case, exhibit better performance in several visual abilities in comparison to a group of individuals without sporting backgrounds, suggesting an improvement due to the systematic involvement of those skills during basketball practice.

Published

2020

20. Immediate and cumulative effects of upper-body isometric exercise on the cornea and anterior segment of the human eye

Author

Jesus Vera, Beatriz Redondo, Rubén Molina, Amador García-Ramos, and Raimundo Jiménez

Subjects

Physical exercise, Pentacam, Corneal ectasia, Pupil size, Medicine, Biology (General), QH301-705.5

Abstract

Objectives The execution of isometric resistance training has demonstrated to cause changes in the ocular physiology. The morphology of the cornea and anterior chamber is of paramount importance in the prevention and management of several ocular diseases, and thus, understating the impact of performing isometric exercise on the eye physiology may allow a better management of these ocular conditions. We aimed to determine the short-term effects of 2-minutes upper-body isometric effort at two different intensities on corneal and anterior eye morphology. Methods Eighteen healthy young adults performed a 2-minutes isometric biceps-curl exercise against two loads relative to their maximum strength capacity (high-intensity and low-intensity) in a randomized manner. An Oculus Pentacam was used to measure the corneal morphology and anterior chamber parameters in both experimental conditions at baseline, during the isometric effort (after 30, 60, 90 and 120 seconds), and after 30 and 120 seconds of passive recovery. Results We found that isometric effort causes an increase in pupil size (P 0.05 in all cases). Conclusions Our data exhibit that performing 2-minutes of upper-body isometric exercise modifies several parameters of the corneal morphology and anterior eye biometrics, with these changes being greater for the high-intensity exercise condition. The findings of this study may be of relevance for the prevention and management of corneal ectasias and glaucoma.

Published

2022

21. Effect of Nano-Phosphorus Formulation on Growth, Yield and Nutritional Quality of Wheat under Semi-Arid Climate

Author

Anuj Poudel, Satish Kumar Singh, Raimundo Jiménez-Ballesta, Surendra Singh Jatav, Abhik Patra, and Astha Pandey

Subjects

foliar application, diammonium phosphate, nano-phosphorus, micronutrients, wheat, Agriculture

Abstract

Appropriate phosphorus (P) management techniques increase yield and nutritional properties while minimizing environmental concerns. The widespread use of nano-fertilizers (NFs) in agriculture endangers soil and plants. It is vital to research the behavior of nano-phosphors (nano-P) on plant growth and quality, as well as their technique of interaction with soil properties in order to obtain key ecosystem benefits. With this in mind, a field experiment was conducted using wheat as a test crop to explore the impact of nano phosphorus (nano-P) on soil. The study’s goal was to examine how the foliar application of nano-P to wheat affects its growth, yield and nutrient concentration. Treatments consisted of: T1: 100% NPK (120:137:72 kg N:P2O5:K2O ha−1) by RDF (recommended dose of fertilizer); T2: 100% NPK by RDF + 2 foliar sprays of nano-P @ 494.21 mL ha−1; T3: 100% NK + 0% P (no foliar); T4: 100% NK + 75% P + 2 foliar sprays of nano-P @ 494.21 mL ha−1; T5: 100% NK + 50% P + 2 foliar sprays of nano-P @ 494.21 mL ha−1;T6: 100% NK + 0% P + 2 foliar sprays of nano-P @ 494.21 mL ha−1; T7: 100% NPK by RDF + 1 foliar spray of nano-P @ 494.21 mL ha−1; T8: 100% NK + 75% P + 1 foliar spray of nano-P @ 494.21 mL ha−1; T9: 100% NPK + 1 foliar spray of nano-P @ 494.21 mL ha−1; T10-100% NK + 75% P + 1 foliar spray of nano-P @ 494.21 mL ha−1. According to the findings, applying 100% NK + 75% P + 2 foliar applications of nano-P at the tillering and panicle initiation stages increased yield over 100% RDF by 37.1%. Additionally, the highest micronutrient concentration (Zn (36.4 mg kg−1), Cu (21.2 mg kg−1), Mn (22.9 mg kg−1) and Fe (61.1 mg kg−1)) in grain were noticed in T3 (100% NK + 0% P no foliar spray of nano-P) treatment, which was superior to T1 (100% NPK). Furthermore, foliar application of nano-P fertilizer in combination with different levels of diammonium phosphate (DAP) slightly increased the amount of N, P and K, as well as micronutrients in post-harvest soil. In summary, the use of 100% NK + 75% + 2 foliar applications of nano-P saved 25% recommendation dose P if supplied as nano-P as a form of phosphorus, and can be a suitable substitute for DAP, especially in smart agriculture, as it possibly reduces P leaching into groundwater, while maintaining or increasing wheat crop yield over the 100% RDF.

Published

2023

22. Recognizing the Importance of an Urban Soil in an Open-Air City Museum: An Opportunity in the City of Madrid, Spain

Author

Raimundo Jiménez-Ballesta, Isabel S. De Soto-García, Francisco Jesús García-Navarro, and Rosario García-Giménez

Subjects

urban soils, cultural soil, pedogenesis, ecological engineering, urbic technosols, artifacts, Agriculture

Abstract

This article examines the presence of urban soil buried under anthropogenic debris in an air-museum park in the Madrid city center (Spain), and highlights the particularities of this singular urbanized setting to indicate ecological evaluation options for soils. The study of a soil profile (with a thickness of about 2.30 m), classified as Urbic Technosols, allowed us to devise that it is formed by a series of filled-in amounts of artifacts (construction debris and other anthropogenic waste) of about 10–30%, plus organic and mineral materials. These soils’ composition and morphology depend on the natural conditions of the territory and also on anthropogenic activities. The soil properties (analyzed by conventional techniques) are moderate in acidity reaction and have relatively higher organic matter content. The Pb, Cu and Zn concentrations in anthropogenic horizons do not exceed the approximate permissible concentrations by 1.5–10-fold. Over the course of time, the soil profile has been transformed as a result of the impact of pedogenetic processes developing under the Mediterranean climate and man’s hand. Although urban environments present a certain complexity, at least the role of soil should be recognized regarding flood mitigation, recycling of wastes and toxins, filtering of nutrients or carbon storage and GHG regulation. The analysis of our results concludes the need to better perceive this soil profile and its green space to improve the urban ecosystem and to ensure better citizen well-being.

Published

2022

23. Modeling and Assessment of Land Degradation Vulnerability in Arid Ecosystem of Rajasthan Using Analytical Hierarchy Process and Geospatial Techniques

Author

Brijesh Yadav, Lal Chand Malav, Raimundo Jiménez-Ballesta, Chiranjeev Kumawat, Abhik Patra, Abhishek Patel, Abhishek Jangir, Mahaveer Nogiya, Roshan Lal Meena, Pravash Chandra Moharana, Nirmal Kumar, Ram Prasad Sharma, Lala Ram Yadav, Gangalakunta P. Obi Reddy, and Banshi Lal Mina

Subjects

analytical hierarchical process, GIS, Google Earth imageries, land degradation, Luni River basin, remote sensing, Agriculture

Abstract

Wind erosion is a major natural disaster worldwide, and it is a key problem in western Rajasthan in India. The Analytical Hierarchy Process (AHP), the Geographic Information System (GIS), and remote sensing satellite images are effective tools for modeling and risk assessment of land degradation. The present study aimed to assess and model the land degradation vulnerable (LDV) zones based on the AHP and geospatial techniques in the Luni River basin in Rajasthan, India. This study was carried out by examining important thematic layers, such as vegetation parameters (normalized difference vegetation index and land use/land cover), a terrain parameter (slope), climatic parameters (mean annual rainfall and land surface temperature), and soil parameters (soil organic carbon, soil erosion, soil texture, and soil depth), using the Analytical Hierarchical Process (AHP) and geospatial techniques in the Luni River basin in Rajasthan, India. The weights derived for the thematic layers using AHP were as follows: NDVI (0.27) > MAR (0.22) > LST (0.15) > soil erosion (0.12) > slope (0.08) > LULC (0.06) > SOC (0.04) > soil texture (0.03) > soil depth (0.02). The result indicates that nearly 21.4 % of the total area is prone to very high degradation risks; 12.3% is prone to high risks; and 16%, 24.3%, and 26% are prone to moderate, low, and very low risks, respectively. The validation of LDV was carried out using high-resolution Google Earth images and field photographs. Additionally, the Receiver Operating Characteristic (ROC) curve found an area under the curve (AUC) value of 82%, approving the prediction accuracy of the AHP technique in the study area. This study contributes by providing a better understanding of land degradation neutrality and sustainable soil and water management practices in the river basin.

Published

2022

24. Impact of Short-Term Cultivation on Some Selected Properties of Sandy Soil in an Arid Environment

Author

Salman A. H. Selmy, Salah H. Abd Al-Aziz, Ahmed G. Ibrahim, and Raimundo Jiménez-Ballesta

Subjects

arid lands, cultivated land, cultivation-induced changes, land-use, soil depths, soil reclamation, Physical geography, GB3-5030, Chemistry, QD1-999

Abstract

Soil management is recognized to have an impact on soil quality attributes. Depending on the management approach, this impact can either degrade or improve soil quality. There is a severe shortage of information on the impacts of cultivation on sandy soil properties in arid desert regions. Therefore, the objective of this study was to investigate the short-term cultivation effects (5 years) on the properties’ changes of coarse-textured soil in an arid desert region in western Assiut Governorate, Egypt. The current study was conducted on soils sampled at four depth intervals, namely 0–10, 10–20, 20–30, and 30–40 cm, from both cultivated and uncultivated soils, using a systematic sampling grid (10 × 10 m), to investigate the potential impacts of the cultivation process on six soil attributes. Each land use was represented by an area of 0.5 ha (50 × 100 m). A total of 160 composite soil samples (at all depths) were collected from both soils and analyzed for their physical and chemical properties, employing standard laboratory procedures. The data were statistically and geostatistically analyzed to compare the results and map the spatial distributions of the selected soil properties. The results revealed that cultivation had a considerable positive impact on most of the properties of cultivated soil compared to those of uncultivated soil (virgin land). The findings also showed that the available phosphorus levels in cultivated soil were higher than in virgin soil by 16, 9, 8.5, and 6 folds, with increases in organic matter content of 16.8, 12.4, 11.9, and 7.9 times at depths of 0–10, 10–20, 20–30, and 30–40 cm, respectively. Furthermore, compared to virgin soil, cultivated soil exhibited a salinity reduction of −8.9%, −56.4%, −66.3%, and −71.8%, at depths of 0–10, 10–20, 20–30, and 30–40 cm, respectively. Moreover, some other properties of the cultivated soil improved, particularly in the surface soil layers, such as pH reduction, CaCO3 decline, and CEC increase, while the soil texture grade did not change. Therefore, continuous monitoring of the effects of diverse soil management strategies in the short term assists in the understanding of the ongoing changes in soil physical and chemical characteristics, which is critical for maintaining satisfactory soil quality and sustainable soil productivity in arid lands.

Published

2022

25. Impact of Long-Term Conservation Agriculture Practices on Phosphorus Dynamics under Maize-Based Cropping Systems in a Sub-Tropical Soil

Author

Ajin S. Anil, Vinod K. Sharma, Raimundo Jiménez-Ballesta, Chittar M. Parihar, Siba P. Datta, Mandira Barman, Kapil A. Chobhe, Chiranjeev Kumawat, Abhik Patra, and Surendra Singh Jatav

Subjects

conservation agriculture, crop residue, organic P, phosphorus fraction, zero tillage, Agriculture

Abstract

Over the past decade, scientific studies have increasingly concentrated on the effects of global phosphorus (P) scarcity on food security. A comprehensive strategy that considers demand reduction and recycling possibilities is needed to address the global P scarcity. Reduced tillage along with crop residue retention could decrease fixation of P in soil, improve labile P content and enhance organic-P (Po) buildup and its mineralization by phosphatases; this could be an extra benefit of conservation agriculture (CA) in soils. To study the impact of long-term CA on soil organic and inorganic P fractions and their distribution, a long-term field trial was conducted under a maize-based cropping system with different tillage (zero tillage (ZT), permanent bed (PB) and conventional till (CT) and cropping system (maize–wheat–mungbean (MWMb), maize–chickpea–sesbania (MCS), maize–mustard–mungbean (MMuMb) and maize–maize–sesbania (MMS)). Phosphorus dynamics were studied through sequential fractionation (organic and inorganic P) at 0–5 and 5–15 cm soil depth. The findings showed that a higher amount of soluble and loosely bound P (SL-P) was detected in ZT among the inorganic P fractions, whereas iron-bound P (Fe-P), aluminum-bound P (Al-P), reductant soluble P (RES-P) and calcium-bound P (Ca-P) were found higher in CT in both soil depths. Among Organic-P fractions, moderately labile and non-labile Po was found higher in PB and ZT but, in the case of labile Po, it was found insignificant with respect to tillage operations. Significant synergistic effects of winter legume (chickpea) with summer legumes (sesbania and mungbean) in crop rotation were observed on SL-P, Labile Po, Humic acid-Po, Alkaline phosphatase and MBP at 0–5 and 5–15 cm soil depths. Given the potential relevance of understanding P dynamics for efficient P management in long-term conservation agriculture practices, our findings offers critical new insight for the P management for sustainable development.

Published

2022

26. Evaluation of the Impact Caused by the Snowfall after Storm Filomena on the Arboreal Masses of Madrid

Author

María Eugenia Pérez-González, José María García-Alvarado, María Pilar García-Rodríguez, and Raimundo Jiménez-Ballesta

Subjects

climate risk, snowfall, impact on trees, satellite images, satellite data, NDVI, Agriculture

Abstract

Following a copious and famous snowfall in Madrid city (Spain) and its surrounding area, the tree masses were analysed to assess the impact of this snowfall. In this way, this paper proposes an approach towards urban forest impact inventory mapping as a consequence of the snowfall of January 2021, and the subsequent atmospheric stability, which kept surface temperatures in Madrid close to −10 °C. The study has been carried out using snowfall data from 1920 to 2020 and images from the Sentinel, Landsat and MODIS satellites. The results obtained by means of image changes in the NDVI reveal a clear impact on the trees, with 11% of the winter vegetation cover of the municipality being affected. Especially significant has been the damage detected both in the forest areas in the city and in the parks, gardens or urban roads.

Published

2022

27. Effect of Maize Conservation Crops Associated with Two Vegetal Covers on the Edaphic Macrofauna in a Well-Drained Savanna of Venezuela

Author

Jimmy A. Morales-Márquez, Raimundo Jiménez-Ballesta, Rosa M. Hernández-Hernández, Gloria K. Sánchez, Zenaida Lozano, and Ignacio Castro

Subjects

soil macrofauna, community analysis, agroecology, maize, improved pastures, tropical savannas, Agriculture

Abstract

Conventional agricultural in the Venezuelan Llanos has generated gradual soil degradation. Therefore, conservationist agriculture has been proposed. According to several works, this type of management favors soil macrofauna. To test this hypothesis, the response of soil macrofauna to the establishment of conservationist maize crops, associated with Brachiaria dictyoneura (Bd) and Centrosema macrocarpum (Cm), was evaluated. The samples of soil and soil macrofauna were taken per vegetation cover at different climatic season over 2 years and 10 months. For this period and under the conditions studied, the results partially refute the hypothesis; on the one hand, they showed that the soil macrofauna of a natural savanna (NS) is the most diverse and equitable (N1 = 4.5 ± 2.8), followed by the cultivation of maize associated with Cm (N1 = 3.2 ± 1.9) and the least diverse with Bd (N1 = 2.6 ± 2.1). Additionally, some taxonomic groups apparently did not tolerate soil intervention, while Termitidae was favored. On the other hand, the temporal variation of the soil macrofauna did not differ between vegetation covers (F: 1.18; p = 0.37). This variation could be due to the decrease in TP (r = −0.55) and increased BD (r = 0.56).

Published

2022

28. A Pedological Catenal Characterization along Steeply Sloped and Perhumid Regions: The Case Study of Piedemonte Llanero, Colombia

Author

Juan Manuel Trujillo-González, Marco Aurelio Torres-Mora, Francisco J. García-Navarro, and Raimundo Jiménez-Ballesta

Subjects

landscape, pedon, slope, soil characteristics, soil fertility, aluminum saturation, Agriculture (General), S1-972

Abstract

Owing to data scarcity, the soil properties of the Colombian “Piedemonte Llanero” are poorly quantified. To provide basic information about how pedogenic properties along a steeply sloped and perhumid landscape are related to its use (which can help lead toward better management and establishment of a sustainable crop production system), this work addresses the characterization of the morphogenetic and chemical features of selected Piedemonte Llanero soils. Research was conducted in a sequence of soils composed of four profiles located in a transect of 200–1800 m of altitude. After macromorphologically identifying, describing, and analyzing soils based on these data, soil weathering and general fertility were interpreted. Ultisols, Inceptisols, Entisols and Oxisols were fundamentally identified according to Soil Taxonomy; that is, Lixisols, Cambisols, Umbrisols, and Ferralsols, according to IUSS Working Group WRB (2015). The dominant effect of humidity attributes in soil formation, with slope and slope gradients, was the major controlling factor for the contrasting soil genesis and properties along the watershed sequence. The acid character, low cation exchange capacity, and degree of saturation stood out, and, including the inherent increase in Al3+ of change, were the most outstanding characters. The data obtained by this study present a substantial basis for good land use planning and will facilitate technology to be transferred from one area to another with a similar environmental picture.

Published

2022

29. Rapid Response Indicators for Predicting Changes in Soil Properties Due to Solarization or Biosolarization on an Intensive Horticultural Crop in Semiarid Regions

Author

Antonio Sánchez-Navarro, Raimundo Jiménez-Ballesta, Aldara Girona-Ruiz, Iris Alarcón-Vera, and María José Delgado-Iniesta

Subjects

organic amendment, fertility, organic agriculture, soil degradation, sustainable management, semiarid soils, Agriculture

Abstract

Agriculture practices developed since the middle of the last century have led to the degradation of different resources and made it necessary to promote agricultural models that are less aggressive towards nature. Sustainable agricultural growth requires a more efficient use of land. An experimental model was designed with four treatments in the Campo de Cartagena area (SE Spain): biosolarization with manure (BSM), biosolarization with brassicas (BB), solarization (S), and a pilot test (PT). The general objective was to determine by means of rapid response indicators the changes occurring in soil properties as a consequence of the implementation of these solarization or biosolarization practices and their influence on the quality and yield of a lettuce crop. The results show that there was no significant response in the physical and biological properties of the soil. Physicochemical properties such as pHw, and electrical conductivity (ECe), as well as chemicals such as total nitrogen (TN) and the content of some macro and micronutrients, can be considered as rapid response indicators. The highest yields (Yc) and highest commercial quality (Mc) of lettuce were obtained in the BB and BSM treatments (Yc > 23,000 kg ha−1; Mc > 413 g). These treatments resulted in biological NO3− sequestration and, in the case of BB, salt immobilization (ECe: 6 dS m−1). According to these results, BSM and BB can be recommended for sustainable agriculture and even as valid methods for the recovery of soils affected by salts and NO3−. Our results should increase the feasibility of these techniques in semiarid areas.

Published

2022

30. Modeling and Assessing Potential Soil Erosion Hazards Using USLE and Wind Erosion Models in Integration with GIS Techniques: Dakhla Oasis, Egypt

Author

Salman A. H. Selmy, Salah H. Abd Al-Aziz, Raimundo Jiménez-Ballesta, Francisco Jesús García-Navarro, and Mohamed E. Fadl

Subjects

soil erosion hazard, USLE, ILSWE, GIS techniques, soil erosion spatial modeling, soil erosion mapping, Agriculture (General), S1-972

Abstract

Soil erosion modeling is becoming more significant in the development and implementation of soil management and conservation policies. For a better understanding of the geographical distribution of soil erosion, spatial-based models of soil erosion are required. The current study proposed a spatial-based model that integrated geographic information systems (GIS) techniques with both the universal soil loss equation (USLE) model and the Index of Land Susceptibility to Wind Erosion (ILSWE). The proposed Spatial Soil Loss Model (SSLM) was designed to generate the potential soil erosion maps based on water erosion and wind erosion by integrating factors of the USLE and ILSWE models into the GIS environment. Hence, the main objective of this study is to predict, quantify, and assess the soil erosion hazards using the SSLM in the Dakhla Oasis as a case study. The water soil loss values were computed by overlaying the values of five factors: the rainfall factor (R-Factor), soil erodibility (K-Factor), topography (LS-Factor), crop types (C-Factor), and conservation practice (P-Factor). The severity of wind-driven soil loss was calculated by overlaying the values of five factors: climatic erosivity (CE-Factor), soil erodibility (E-Factor), soil crust (SC-Factor), vegetation cover (VC-Factor), and surface roughness (SR-Factor). The proposed model was statistically validated by comparing its outputs to the results of USLE and ILSWE models. Soil loss values based on USLE and SSLM varied from 0.26 to 3.51 t ha−1 yr−1 with an average of 1.30 t ha−1 yr−1 and from 0.26 to 3.09 t ha−1 yr−1 with a mean of 1.33 t ha−1 yr−1, respectively. As a result, and according to the assessment of both the USLE and the SSLM, one soil erosion class, the very low class (−1 yr−1), has been reported to be the prevalent erosion class in the study area. These findings indicate that the Dakhla Oasis is slightly eroded and more tolerable against water erosion factors under current management conditions. Furthermore, the study area was classified into four classes of wind erosion severity: very slight, slight, moderate, and high, representing 1.0%, 25.2%, 41.5%, and 32.3% of the total study area, respectively, based on the ILSWE model and 0.9%, 25.4%, 43.9%, and 29.9%, respectively, according to the SSLM. Consequently, the Dakhla Oasis is qualified as a promising area for sustainable agriculture when appropriate management is applied. The USLE and ILSWE model rates had a strong positive correlation (r = 0.97 and 0.98, respectively), with the SSLM rates, as well as a strong relationship based on the average linear regression (R2 = 0.94 and 0.97, respectively). The present study is an attempt to adopt a spatial-based model to compute and map the potential soil erosion. It also pointed out that designing soil erosion spatial models using available data sources and the integration of USLE and ILSWE with GIS techniques is a viable option for calculating soil loss rates. Therefore, the proposed soil erosion spatial model is fit for calculating and assessing soil loss rates under this study and is valid for use in other studies under arid regions with the same conditions.

Published

2021

31. Soil Quality Assessment Using Multivariate Approaches: A Case Study of the Dakhla Oasis Arid Lands

Author

Salman A. H. Selmy, Salah H. Abd Al-Aziz, Raimundo Jiménez-Ballesta, Francisco Jesús García-Navarro, and Mohamed E. Fadl

Subjects

factor analysis, minimum data set, indexing models, indicator selection, land use, Agriculture

Abstract

A precise evaluation of soil quality (SQ) is important for sustainable land use planning. This study was conducted to assess soil quality using multivariate approaches. An assessment of SQ was carried out in an area of Dakhla Oasis using two methods of indicator selection, i.e., total data set (TDS) and minimum data set (MDS), and three soil quality indices (SQIs), i.e., additive quality index (AQI), weighted quality index (WQI), and Nemoro quality index (NQI). Fifty-five soil profiles were dug and samples were collected and analyzed. A total of 16 soil physicochemical parameters were selected for their sensitivity in SQ appraising to represent the TDS. The principal component analysis (PCA) was employed to establish the MDS. Statistical analyses were performed to test the accuracy and validation of each model, as well as to understand the relationship between the used methods and indices. The results of principal component analysis (PCA) showed that soil depth, gravel content, sand fraction, and exchangeable sodium percentage (ESP) were included in the MDS. High positive correlations (r ≥ 0.9) occurred between SQIs calculated using TDS and/or MDS under the three models. Moreover, the findings showed highly significant differences (p < 0.001) among SQIs within and between TDS and MDS. Approximately 80 to 85% of the total study area based on TDS, as well as 70 to 75%, according to MDS, were identified as suitable soils with slight limitations on soil quality grade (Q3, Q2, and Q1), while the remaining 20 to 30% had high to severe limitations (Q4 and Q5). The highest sensitivity (SI = 2.9) occurred by applying WQI using MDS and indicator weights based on the variance of PCA. Furthermore, the highest linear regression value (R2 = 0.88) between TDS and MDS was recorded using the same model. Because of its high sensitivity, such a model could be used for monitoring SQ changes caused by agricultural practices and environmental factors. The findings of this study have significant guiding implications and practical value in assessing the soil quality using TDS and MDS in arid areas critically and accurately.

Published

2021

32. Effects of Water Stress on the Phenolic Compounds of ‘Merlot’ Grapes in a Semi-Arid Mediterranean Climate

Author

Juan L. Chacón-Vozmediano, Jesús Martínez-Gascueña, Esteban García-Romero, Sergio Gómez-Alonso, Francisco J. García-Navarro, and Raimundo Jiménez-Ballesta

Subjects

abiotic stress, cultivar, flavonoids, grape, water deficit, Plant culture, SB1-1110

Abstract

Of all the abiotic stress types to which plants grown in fields are exposed, the most influential is water stress. It is well accepted that adopting controlled deficit irrigation strategies during the growing season has beneficial effects on the chemical compositions of grapes and red wines. However, there is a discrepancy in the timing, intensity and duration of deficit. This study aimed to evaluate the changes in phenolic composition of ‘merlot’ cultivar grapes when subjected to different levels of water stress in a semi-arid Mediterranean climate. Four treatments with different water stress levels were applied within two phenological intervals (flowering-veraison, veraison-maturity) to 128 grapevines for two consecutive years. The water stress levels for Treatments 1, 2, 3 and 4 were: no-light, light-moderate, moderate-intense and intense for the flowering-veraison and veraison-maturity intervals, respectively. Water stress distinctly affected the phenolic compounds in skin and seeds. The concentrations of flavan-3-ols and total polyphenols were much higher in seeds than in skin, and in both fractions, tannins are the major compounds.

Published

2021

33. Exploring the Presence of Five Rare Earth Elements in Vineyard Soils on Different Lithologies: Campo de Calatrava, Spain

Author

Raimundo Jiménez-Ballesta, Sandra Bravo, Caridad Pérez-de-los-Reyes, José Angel Amorós, Jesús García-Pradas, Mónica Sánchez-Ormeño, and Francisco Jesús García-Navarro

Subjects

viticulture, geostatistics, spatial distribution, Vitis vinifera L., REEs, La Mancha, Agriculture

Abstract

The aim of the work described here was to understand the pedogeochemical signature of five rare earth elements (REEs; Ce, Nd, La, Y, and Sc) in vineyard soils in Campo de Calatrava (a unique territory with calcareous, volcanic and metamorphic rocks). The mean contents in surface horizons of Ce, Nd, La, Y, and Sc were 65.7, 32.0, 35.5, 18.8, and 13.9 mg·kg–1, respectively. In subsurface horizons the contents were Ce 62.8, Nd 31.1, La 35.7, Y 17.9, and Sc 14.4 mg·kg–1. The results show that mean contents of REEs in the area under investigation are in the order Ce > Nd > La > Y > Sc. Ce has a very high range, with a value close to 150 mg·kg–1. On the other hand, concentrations of Ce, Nd, Y, and Sc are higher in soils on volcanic material than in soils on nonvolcanic material, while only La values are lower in soils on volcanic rocks. The distributional maps of REEs in surface and subsurface horizons suggest that parent material and pedogenesis such as argillization and calcium carbonate accumulation are more important factors than the use of REE-based fertilizers, except in certain exceptional cases (consistent with a possible specific human impact after continuous fertilization).

Published

2021

34. Effects of Water Stress on Vegetative Growth and ‘Merlot’ Grapevine Yield in a Semi-Arid Mediterranean Climate

Author

Juan L. Chacón-Vozmediano, Jesús Martínez-Gascueña, Francisco J. García-Navarro, and Raimundo Jiménez-Ballesta

Subjects

abiotic stress, grapevine, leaf area, Vitis vinifera, water stress, yield, Plant culture, SB1-1110

Abstract

Water stress is considered to be the most influential type of abiotic stress to which plants may be exposed. In grapevines (Vitis vinifera L.), it is a common practice to keep plants under water stress at different stages of the season with the aim of reducing yield and improving the composition of the fruit. The objective of this study was to evaluate foliar development and yield of ‘Merlot’ grapevines grown in the field when they are subjected to different levels of water stress in a semi-arid Mediterranean climate. Four treatments with different levels of water stress were applied during two phenological intervals (flowering-veraison and veraison-maturity) to 128 grapevines for a period of two consecutive years. The levels of water stress were none-light, light-moderate, moderate-intense, and intense-intense for the flowering-veraison and veraison-maturity intervals, respectively. The results revealed that the total leaf area, the exposed leaf area, and the yield all decreased as the degree of water stress increased. The weight of the berry was a decisive factor in determining yield. The least restrictive water regime treatment gave the heaviest berries and bunches and, as a result, the highest yields.

Published

2020

35. Understanding the Quality of Local Vineyard Soils in Distinct Viticultural Areas: A Case Study in Alcubillas (La Mancha, Central Spain)

Author

Raimundo Jiménez-Ballesta, Sandra Bravo, José Angel Amorós, Caridad Pérez-de los Reyes, Jesús García-Pradas, and Francisco J. García-Navarro

Subjects

viticulture, ecological systems, terroir, red soils, petrocalcic horizons, soil mapping, alcubillas (la mancha), Agriculture (General), S1-972

Abstract

The essential features of the soils of a pilot zone in La Mancha (Central Spain), namely the Alcubillas municipability, have been characterized. The soil properties that may contribute to a better understanding of the impact of soil on grape production have also, been evaluated. For this, several soil profiles have been described and analyzed and the profiles have been mapped. The soils are mainly Entisols, Inceptisols and Alfisols, with their evolution controlled by the action of a xerophytic Mediterranean climate. Most of these soils have a loamy clay texture, with medium clay contents and sufficient nutrient contents (despite the low content in organic matter 1.39% and 1.04%, and the high concentrations of calcium carbonate 23.7% and 26.9% in the surface and subsurface horizons, respectively). Drainage problems were not observed and it can therefore be stated that the Alcubillas vineyards are based on a ‘terroir’ term for the production of high quality grapes. In general, the soils are not subjected to treatments to control possible diseases or pests and we have therefore postulated that the soils represent the ideal scenario to establish a distinctive zone and for the increasingly valued ecological and natural viticulture.

Published

2020

36. Percepción de los maestros sobre las deficiencias visuales y su incidencia escolar

Author

Ana Fernández Quevedo, José Antonio García García, Raimundo Jiménez Rodríguez, and Francisco Javier Perales Palacios

Subjects

Deficiente visual, aprendizaje visual, encuesta, enseñanza primaria, formación de profesores, Education, Education (General), L7-991

Abstract

El sentido de la visión constituye la fuente principal de adquisición de información del individuo, de aquí la importancia de un buen diagnóstico y corrección, en su caso, de cualquier anomalía en la misma para un correcto aprendizaje, especialmente en los primeros años de escolarización. En este artículo se exponen los resultados de una encuesta pasada a maestros de centros educativos andaluces mediante la que se pretende poner de manifiesto sus conocimientos sobre las deficiencias visuales que pueden presentar sus alumnos, y la incidencia que podrían tener sobre su rendimiento escolar. Los resultados indican que dicho conocimiento se suele circunscribir a las anomalías de tipo refractivo, considerando que se hallan bien tratadas en sus alumnos. A pesar de la importancia que atribuyen a estas deficiencias sobre el aprendizaje escolar, piensan que otros factores pueden poseer un papel más relevante. Asimismo seconsideran partidarios de recibir una formación más completa al respecto.

Published

2015

37. Heavy Metals in the Sediments of the Chilika Lake, India: Contamination, Source and Toxicity Analysis

Author

Panda, Dibyajyoti, Ghosh, Amlan Kumar, Ballesta, Raimundo Jiménez-, Espinosa, Maria Teresa Rodriguez, Pradhan, Satya Narayana, and Patra, Abhik

Published

2024

38. Natural Enrichment of Trace Elements in Surface Horizons of Calcareous Soils (La Mancha, Spain)

Author

Sandra Bravo Martín-Consuegra, Jose A. Amorós Ortíz-Villajos, Caridad Pérez-de-los-Reyes, Francisco J. García Navarro, Rolando Ruedas Luna, and Raimundo Jiménez Ballesta

Subjects

Chemistry, QD1-999

Abstract

The study of five soil profiles developed on carbonatic sediments of Tertiary Miocene origin has been carried out. The topography of the area was basically flat and the traditional uses of the soils are the cultivation of dry cereals and grapevine. The geochemical characterization of the aforementioned profiles involves a study of the contents of major and trace elements among other pedologic aspects (texture, pH, organic matter, etc.). The results of this study also indicate a superficial enrichment of trace elements due to the leaching of Ca and moderate biological and anthropic activity. We can consider strontium, Sr, as the trace element that characterizes these limy soils (435 mg/kg average content in total soil and 708 mg/kg in the original rock). These contents are similar to the average value in Castilla-La Mancha of 380 mg/kg and are higher than the average in world soils of about 200 mg/kg. High levels of dangerous or pollutant elements (Cd, Hg, Pb, Cu, Zn, or Ni) were not detected. The majority of trace element anomalies are related to calcareous material and the leaching of calcium carbonate (Ca), while the influence of the anthropogenic factor is secondary. Soil quality does not indicate toxicity although surficial enrichment suggests a weak threat from consuming crops.

Published

2015

39. Impact of Potentially Contaminated River Water on Agricultural Irrigated Soils in an Equatorial Climate

Author

Juan M. Trujillo-González, Juan D. Mahecha-Pulido, Marco A. Torres-Mora, Eric C. Brevik, Saskia D. Keesstra, and Raimundo Jiménez-Ballesta

Subjects

trace elements, equatorial area, agricultural land use, wastewater irrigation, Agriculture (General), S1-972

Abstract

Globally, it is estimated that 20 million hectares of arable land are irrigated with water that contains residual contributions from domestic liquids. This potentially poses risks to public health and ecosystems, especially due to heavy metals, which are considered dangerous because of their potential toxicity and persistence in the environment. The Villavicencio region (Colombia) is an equatorial area where rainfall (near 3000 mm/year) and temperature (average 25.6 °C) are high. Soil processes in tropical conditions are fast and react quickly to changing conditions. Soil properties from agricultural fields irrigated with river water polluted by a variety of sources were analysed and compared to non-irrigated control soils. In this study, no physico-chemical alterations were found that gave evidence of a change due to the constant use of river water that contained wastes. This fact may be associated with the climatic factors (temperature and precipitation), which contribute to fast degradation of organic matter and nutrient and contaminants (such as heavy metals) leaching, or to dilution of wastes by the river.

Published

2017

40. Soil property variability in a humid natural Mediterranean environment: La Rioja, Spain Varibilidad de las propiedades del suelo en ambiente mediterráneo húmedo: La Rioja, España Variabilidade espacial das propriedades do solo em ambiente úmido Mediterrâneo: La Rioja, Espanha

Author

Raimundo Jiménez-Ballesta, Victoria Íñigo, Marisol S. Andrades, Juan I. Alonso-Martirena, and Álvaro Marín

Subjects

Natural soils, spatial variability, humid Mediterranean environment, Suelo natural, variabilidad espacial, clima mediterráneo húmedo, Solo natural, variabilidade espacial, o ambiente húmido Mediterrâneo, La Rioja, Espanha., Agriculture

Abstract

Estimating the spatial variability of soil properties is significant for evaluating environmental impacts. For example, many soil properties are directly used in the modelling of environmental processes such as global climate change. These aspects have not previously been studied at this level in La Rioja (a region of Spain with a humid Mediterranean environment). The intention of this study was to provide quantitative information on soil assessment and mapping methods for natural soils in a humid Mediterranean environment. The properties considered included: pH and organic matter, calcium carbonate and clay contents. For testing, samples were selected from several different soil types which, in theory, were only affected by pedogenetic processes and had developed on different parent materials. More than half of the samples did not contain any CaCO3, while the rest of the samples presented a variety of CaCO3, forms, with high percentages being present in certain cases (up to 65% on the surface). It was possible to establish two different areas: one predominantly acidic and the other principally basic. The predominately basic samples were due to the high percentage of carbonate in the parent materials. The clay content on the surface was similar to that in the subsurface layers. Finally, the organic matter contents in the uppermost layers presented average values of 3.9%,with a range of from 0.3 to 17.5%. The major variations in soils were determined by soil type (therefore by soil forming processes), parent material composition, and vegetation type. This study reveals that these methods are useful to determine the spatial distribution of some soil properties in undisturbed soils. The contour maps of soil property variability could be used to improve future sampling designs and management decisions. La estimación de la variabilidad espacial de las propiedades del suelo es importante para evaluar los impactos ambientales o en el modelado de procesos ambientales. En este trabajo se aborda la cuantificación y evaluación de algunas propiedades de suelos (pH, carbonato cálcico, materia orgánica y el contenido en arcilla) de ambiente mediterráneo húmedo en La Rioja (España), un estudio que no había sido previamente abordado a este nivel en esta región. Para este propósito se seleccionaron muestras de suelos teóricamente afectados solamente por procesos edafogenéticos y desarrollados sobre varios materiales de partida. Más de la mitad de las muestras no tienen carbonatos y las que tienen muestran contenidos variables, alcanzando hasta el 65%. En función del pH se pueden establecer dos áreas: una ácida y otra básica. El contenido en arcilla en superficie es similar al de profundidad. Finalmente, el contenido en material orgánica presenta un valor medio de 3,9% en superficie, con un rango que oscila entre 0,3 y 17,5%. Las mayores variaciones se interpretan en función del tipo de suelo (y por tanto de los procesos de formación), composición del material originario y tipo de vegetación. El estudio revela que este método es útil para determinar la distribución espacial de algunas propiedades de suelos naturales y de este modo caracterizar el estatus de estas propiedades a la escala estudiada. Los mapas elaborados pueden ser utilizados en futuros muestreos de suelos y en la toma de decisiones sobre manejo de los mismos. A estimativa da variabilidade espacial das propriedades do solo é importante para avaliar impactos ambientais ou na modelação de processos ambientais. Este artigo aborda a quantificação e avaliação de algumas propriedades do solo (pH, teor em carbonato de cálcio, matéria orgânica e teor em argila) em ambiente mediterrânico húmido: La Rioja (Espanha). Para este efeito, foram selecionadas amostras de solo teoricamente afetadas apenas por processos edafogeneticos e desenvolvidas a partir de diferentes materiais de origem. Mais de metade das amostras não têm carbonatos e as que têm apresentam um conteúdo variável, podendo chegar até 65%. Em função do pH podem estabelecer-se duas áreas: uma ácida e uma básica. O teor de argila à superfície é idêntico ao teor em profundidade. Finalmente, o teor em matéria orgânica apresenta um valor médio de 3,9% à superfície, variando numa gama entre 0,3 e 17,5%. As maiores variações são atribuídas ao tipo de solo, composicão do material de origem e vegetacão. Este estudo revela que este método é útil para determinar a distribuição espacial de algumas propriedades dos solos naturais e, deste modo, caracterizar o estado dessas propriedades para a escala estudada. Os mapas produzidos podem ser utilizados em futuras amostragens de solo e na tomada de decisões sobre a gestão das mesmas.

Published

2012

41. Baseline values and environmental assessment for metal(loid)s in soils under a tropical rainy climate in a Colombian region

Author

Manuel Trujillo-González, Juan, Torres-Mora, Marco Aurelio, Serrano-Gomez, Marlon, Fernando Castillo-Monroy, Edgar, and Ballesta, Raimundo Jiménez

Published

2022

42. Mapping Potential Toxic Elements in Agricultural and Natural Soils of the Piedemonte Llanero in Colombia

Author

Trujillo-González, Juan Manuel, Torres-Mora, Marco Aurelio, Serrano-Gómez, Marlon, Castillo-Monroy, Edgar Fernando, Ballesta, Raimundo Jiménez, and Rodrigo-Comino, Jesús

Published

2022

43. Spatial variability of the physicochemical properties of acidic soils along an altitudinal gradient in Colombia

Author

Trujillo-González, Juan Manuel, Torres-Mora, Marco Aurelio, Ballesta, Raimundo Jiménez, and Brevik, Eric C.

Published

2022

44. Sustainable Viticulture in the Valdepeñas Protected Designation of Origin: From Soil Quality to Management in Vitis vinifera

Author

Bravo, Francisco Jesús García-Navarro, Raimundo Jiménez-Ballesta, Jesús Antonio López Perales, Caridad Perez, Jose Angel Amorós, and Sandra

Subjects

conservation, sustainable vineyards, soil quality vineyard, Vitis vinifera L, cover cropping, viticulture

Abstract

Historically, the productivity–quality dualism has been fundamentally oriented toward productivity in Castilla-La Mancha (Spain), and more specifically, in the Valdepeñas Protected Designation of Origin (PDO). Today this trend is balanced and involves another factor: the environment. From this perspective, soil quality conservation and enhancement is one of the major sustainable viticulture goals today. This study explores soil characteristics and identifies the diversity in soils in the study area for vineyard production in the terroir context, synthesizing old and new trends in applying vineyard cultivation techniques in relation to their sustainability and identifying knowledge gaps in the management of novel practices to improve soil productivity and grape quality. The effects of integrated, organic, and traditional biodynamic management are discussed. The main conclusion is that a careful retrospective analysis of the grape-growing techniques that have dominated in the past century (soil cultivation, fertilization, etc.) is not unfavorable from a sustainability point of view. The study outlines and emphasizes that, despite the suitability of soils, it is necessary to evolve with new methodologies, but without forgetting ancestral techniques.

Published

2023

45. Relationship between dynamic visual acuity and multiple object tracking performance

Author

Jesús Vera, Beatríz Redondo, Rubén Molina, Raimundo Jiménez, and Kristine Dalton

Subjects

Motion, Young Adult, Ophthalmology, Artificial Intelligence, Motion Perception, Visual Acuity, Humans, Experimental and Cognitive Psychology, Sensory Systems

Abstract

We assessed the association between measures of dynamic visual acuity and a multiple object tracking task in physically active young adults. Ninety-four young adults performed the dynamic visual acuity and multiple object tracking tasks. Dynamic visual acuity was measured for horizontal and random walk motion paths at four target speeds (5, 10, 20, and 30°/s). For the multiple object tracking task, participants had to track three out of eight balls for 10 s, and the object speed was adjusted by a staircase procedure. We found that multiple object tracking performance was associated with better identification of horizontally and randomly moving targets in the dynamic visual acuity test ( p 0.170 in all cases). This study provides novel insights into the association between the ability to identify horizontally and randomly moving targets and track multiple objects. Future studies are needed to determine the potential utility of dynamic visual acuity for talent identification and predicting sports performance in real-game situations.

Published

2022

46. The intraocular pressure lowering-effect of low-intensity aerobic exercise is greater in fitter individuals: a cluster analysis

Author

Danica Janicijevic, Beatriz Redondo, Raimundo Jiménez, Amador Garcia-Ramos, and Jesus Vera

Subjects

Physical Therapy, Sports Therapy and Rehabilitation, Orthopedics and Sports Medicine

Abstract

This study aimed to determine the influence of physical fitness level and sex on intraocular pressure (IOP) during the low-intensity aerobic exercise. Forty-four participants (twenty-two men) cycled 30 minutes at low intensity (10% of the maximal power). Maximal power was determined by asking participants to perform maximal sprints of 6 seconds against 3-4 different resistances separated by 3 minutes of rest. The IOP was measured on 9 occasions (1) prior to the warm-up, (2) after the warm-up, (3-7) every 6 minutes during the low-intensity cycling task, and (8-9) 5 and 10 minutes after the cycling task. Low-intensity aerobic exercise had a lowering effect on IOP, being the beneficial effect more accentuated and prolonged in the High-fit group (IOP reduction compared to baseline lasted 30 minutes) than in the Low-fit group (IOP was only reduced at 6 minutes of exercise compared to baseline). Participants´ sex had no effect on the IOP behaviour at any time point (p = 0.453). These findings indicate that individuals who need to reduce IOP levels (i.e., glaucoma patients or those at risk) should increase or maintain a high fitness level to benefit more from the IOP lowering effect during low-intensity aerobic exercises.

Published

2022

47. Effects of wearing swimming goggles on non-invasive tear break-up time in a laboratory setting

Author

Jesús Vera, Rubén Molina, Beatriz Redondo, and Raimundo Jiménez

Subjects

Adult, Male, medicine.medical_specialty, Future studies, business.industry, Non invasive, Tear film stability, High-speed, Swimming goggles, Tear break up time, Tears, Ophthalmology, medicine, Humans, Dry Eye Syndromes, Female, Dynamic-area, Dry eye disease, Eye Protective Devices, business, Swimming, Tear film surface quality, Videokeratoscopy, Optometry

Abstract

Purpose: The use of swimming goggles (SG) has demonstrated to alter different ocular parameters, however, the impact of wearing SG on the tear film stability remains unknown. The main objective of this study was to determine the short-term effects of wearing SG on tear film surface quality break-up time (TFSQ-BUT). Methods: Twenty-eight young healthy adults (14 men and 14 women) wore a drilled SG, and TFSQ-BUT was measured before, during and after SG use. Dynamic-area high-speed videokeratoscopy was used for the non-invasive assessment of TFSQ-BUT. Results: TFSQ-BUT was significantly reduced while SG wear in comparison to the baseline measurement (4.8 ± 4.5 s vs. 8.8 ± 6.9 s; corrected p-value = 0.017, d = 0.57, mean difference = 4.0 [0.6, 7.3]; 45% reduction). Immediately after SG removal, TFSQ-BUT rapidly recovered baseline levels (8.2 ± 5.9 s vs. 8.8 ± 6.9 s; corrected p-value = 0.744). The impact of wearing SG on TFSQ-BUT were independent of the gender of the participants (p = 0.934). Conclusion: The use of SG induces a TFSQ-BUT reduction, with these changes returning to baseline levels immediately after SG removal. These data may be of relevance for the management of dry eye patients, who need to avoid circumstances that exacerbate tear film instability. Nevertheless, these results must be interpreted with caution since the experiment did not entirely mimic real-life conditions (e.g., eye cup piece drilled, time of exposure, environmental conditions). Future studies should consider the inclusion of dry eye patients and older individual in order to explore the generalizability of these findings.

Published

2022

48. Effect of manipulating the vergence/accommodation and image size mismatches of the ± <scp>2D</scp> flipper test on the frequency and precision of accommodative facility

Author

Jesús Vera, Beatriz Redondo, José Miguel Martínez‐Tovar, Rubén Molina, George A. Koulieris, Peter M. Allen, and Raimundo Jiménez

Subjects

Ophthalmology, Ocular accommodation, Visual function, Autorefractor, Optometry - Southwest Bakersfield, Li & Liao, Sensory Systems, Optometry

Abstract

Purpose: The ±2.00 D accommodative facility test presents several limitations, in- cluding the lack of objective information and inherent characteristics such as ver- gence/accommodative conflict, change in apparent size of the image, subjective criteria for judging blur and motor reaction time. By using free-space viewing con- ditions and an open-field autorefractor to monitor the refractive state, we exam- ined the impact of manipulating these factors on the qualitative and quantitative assessment of accommodative facility. Methods: Twenty-five healthy young adults (24.5 ± 4.5 years) took part in this study. Participants performed three accommodative facility tests (adapted flipper, 4D free-space viewing and 2.5D free-space viewing) under both monocular and binocular conditions in random order. A binocular open-field autorefractor was used to assess the accommodative response continuously, and these data were used to characterise accommodative facility quantitatively and qualitatively. Results: There were statistically significant differences between the three testing methods both quantitatively (p < 0.001) and qualitatively (p = 0.02). For the same accommodative demand, a lower number of cycles was obtained for the adapted flipper condition in comparison with the 4D free-space viewing test (corrected p-value < 0.001, Cohen's d = 0.78). However, this comparison did not reach statisti- cal significance for qualitative measures of accommodative facility (corrected p- value = 0.82, Cohen's d 0.05). Conclusions: These data provide evidence that the qualitative assessment of ac- commodative facility is not influenced by the inherent limitations of the ±2.00 D flipper test. The use of qualitative outcomes by incorporating an open-field au- torefractor allows examiners to increase the validity of the accommodative facility test in both clinical and research settings.

Published

2023

49. Comparative Assessment of the Quality and Potential Uses of Groundwater in a Typical Rural Settlement in Colombia

Author

Geraldine Jhafet Huerfano-Moreno, Jose Ismael Rojas-Peña, Yair Leandro Zapata-Muñoz, Juan Manuel Trujillo-González, Marco Aurelio Torres-Mora, Francisco J. García-Navarro, and Raimundo Jiménez-Ballesta

Subjects

groundwater pollution, groundwater quality, groundwater spatial variation, Geography, Planning and Development, groundwater assessment, Aquatic Science, Biochemistry, Water Science and Technology

Abstract

The Sustainable Development Goals of the United Nations (SDGs) establish the need to guarantee quality water for all people. In numerous rural settlements of Colombia, access to clean drinking water is a formidable challenge as frequently observed when waterborne diseases arise, mainly in vulnerable populations without basic sanitation systems. The main objective of this study was to assess the quality and potential use of groundwater sampled from 17 monitored wells in a typical rural settlement in Colombia. Water quality was determined by applying a quality index and performing a principal component analysis (PCA) to determine the weights of each parameter. The results of the Phosphorus, Nitrates, Thermotolerant coliforms and pH variables exceeded regulatory limits, mainly in areas affected by anthropogenic sources with an insufficient sewage network. Coliform population and NO3 exceeded World Health Organization recommended thresholds for drinking water. Therefore, the qualities of the studied water samples were unsuitable for human consumption without prior adequate treatment and, hence, one recommendation is to regulate groundwater monitoring quality. In addition, unhealthy waste disposal practices should be abolished, while permanently controlled modern techniques should be introduced.

Published

2023

50. Conventional and Zero Tillage with Residue Management in Rice–Wheat System in the Indo-Gangetic Plains: Impact on Thermal Sensitivity of Soil Organic Carbon Respiration and Enzyme Activity

Author

Asik Dutta, Ranjan Bhattacharyya, Raimundo Jiménez-Ballesta, Abir Dey, Namita Das Saha, Sarvendra Kumar, Chaitanya Prasad Nath, Ved Prakash, Surendra Singh Jatav, and Abhik Patra

Subjects

Health, Toxicology and Mutagenesis, Public Health, Environmental and Occupational Health, activation energy, aggregate-associated carbon, carbon mineralization, glomalin, temperature sensitivity of SOC decomposition (Q10)

Abstract

The impact of global warming on soil carbon (C) mineralization from bulk and aggregated soil in conservation agriculture (CA) is noteworthy to predict the future of C cycle. Therefore, sensitivity of soil C mineralization to temperature was studied from 18 years of a CA experiment under rice–wheat cropping system in the Indo-Gangetic Plains (IGP). The experiment comprised of three tillage systems: zero tillage (ZT), conventional tillage (CT), and strip tillage (ST), each with three levels of residue management: residue removal (NR), residue burning (RB), and residue retention (R). Cumulative carbon mineralization (Ct) in the 0–5 cm soil depth was significantly higher in CT with added residues (CT-R) and ZT with added residues (ZT-R) compared with the CT without residues (CT-NR). It resulted in higher CO2 evolution in CT-R and ZT-R. The plots, having crop residue in both CT and ZT system, had higher (p < 0.05) Van’t-Hoff factor (Q10) and activation energy (Ea) than the residue burning. Notably, micro-aggregates had significantly higher Ea than bulk soil (~14%) and macro-aggregates (~40%). Aggregate-associated C content was higher in ZT compared with CT (p < 0.05). Conventional tillage with residue burning had a reduced glomalin content and β-D-glucosidase activity than that of ZT-R. The ZT-R improved the aggregate-associated C that could sustain the soil biological diversity in the long-run possibly due to higher physical, chemical, and matrix-mediated protection of SOC. Thus, it is advisable to maintain the crop residues on the soil surface in ZT condition (~CA) to cut back on valuable C from soils under IGP and similar agro-ecologies.

Published

2023