Gotowe bibliografie tematyczne / Garden soil

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Gotowa bibliografia na temat „Garden soil”

Autor: Grafiati
Data publikacji: 3 czerwca 2025
Data aktualizacji: 22 czerwca 2025

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Artykuły w czasopismach na temat "Garden soil"

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van Heijnsbergen, E., A. van Deursen, M. Bouwknegt, J. P. Bruin, A. M. de Roda Husman, and J. A. C. Schalk. "Presence and Persistence of Viable, Clinically Relevant Legionella pneumophila Bacteria in Garden Soil in the Netherlands." Applied and Environmental Microbiology 82, no. 17 (2016): 5125–31. http://dx.doi.org/10.1128/aem.00595-16.

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ABSTRACTGarden soils were investigated as reservoirs and potential sources of pathogenicLegionellabacteria.Legionellabacteria were detected in 22 of 177 garden soil samples (12%) by amoebal coculture. Of these 22Legionella-positive soil samples, seven containedLegionella pneumophila. Several other species were found, including the pathogenicLegionella longbeachae(4 gardens) andLegionella sainthelensi(9 gardens). TheL. pneumophilaisolates comprised 15 different sequence types (STs), and eight of these STs were previously isolated from patients according to the European Working Group forLegionellaInfections (EWGLI) database. Six gardens that were found to be positive forL. pneumophilawere resampled after several months, and in three gardens,L. pneumophilawas again isolated. One of these gardens was resampled four times throughout the year and was found to be positive forL. pneumophilaon all occasions.IMPORTANCETracking the source of infection for sporadic cases of Legionnaires' disease (LD) has proven to be hard.L. pneumophilaST47, the sequence type that is most frequently isolated from LD patients in the Netherlands, is rarely found in potential environmental sources. AsL. pneumophilaST47 was previously isolated from a garden soil sample during an outbreak investigation, garden soils were investigated as reservoirs and potential sources of pathogenicLegionellabacteria. The detection of viable, clinically relevantLegionellastrains indicates that garden soil is a potential source ofLegionellabacteria, and future research should assess the public health implication of the presence ofL. pneumophilain garden soil.
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Li, Xiaoping, Ping Kong, Margery Daughtrey, et al. "Characterization of the Soil Bacterial Community from Selected Boxwood Gardens across the United States." Microorganisms 10, no. 8 (2022): 1514. http://dx.doi.org/10.3390/microorganisms10081514.

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In a recent study, we observed a rapid decline of the boxwood blight pathogen Calonectria pseudonaviculata (Cps) soil population in all surveyed gardens across the United States, and we speculated that these garden soils might be suppressive to Cps. This study aimed to characterize the soil bacterial community in these boxwood gardens. Soil samples were taken from one garden in California, Illinois, South Carolina, and Virginia and two in New York in early summer and late fall of 2017 and 2018. Soil DNA was extracted and its 16S rRNA amplicons were sequenced using the Nanopore MinION® platform. These garden soils were consistently dominated by Rhizobiales and Burkholderiales, regardless of garden location and sampling time. These two orders contain many species or strains capable of pathogen suppression and plant fitness improvement. Overall, 66 bacterial taxa were identified in this study that are known to have strains with biological control activity (BCA) against plant pathogens. Among the most abundant were Pseudomonas spp. and Bacillus spp., which may have contributed to the Cps decline in these garden soils. This study highlights the importance of soil microorganisms in plant health and provides a new perspective on garden disease management using the soil microbiome.
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Small, Gaston E., Sara Osborne, Paliza Shrestha, and Adam Kay. "Measuring the Fate of Compost-Derived Phosphorus in Native Soil below Urban Gardens." International Journal of Environmental Research and Public Health 16, no. 20 (2019): 3998. http://dx.doi.org/10.3390/ijerph16203998.

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The heavy reliance on compost inputs in urban gardening provides opportunities to recycle nutrients from the urban waste stream, but also creates potential for buildup and loss of soil phosphorus (P). We previously documented P in leachate from raised-bed garden plots in which compost had been applied, but the fate of this P is not known. Here, we measured P concentrations in soils below four or six-year-old urban garden plots that were established for research. We hypothesize that the soil P concentration and depth of P penetration will increase over time after gardens are established. Soil cores were collected in five garden plots of each age and quantified for inorganic weakly exchangeable P. Inorganic weakly exchangeable P was significantly elevated in native soil below garden plots (>35 cm deep) relative to reference soil profiles, and excess P decreased with increasing depth, although differences between garden plots of different ages were not significant. Our analysis shows that excess P from compost accumulates in native soil below urban garden plots. While urban agriculture has the potential to recycle P in urban ecosystems, over-application of compost has the potential to contribute to soil and water pollution.
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Bayless, E. Randall, Shawn Naylor, David C. Lampe, Amy A. Story, and Caleb Artz. "Road Salt Collection and Redistribution at an Urban Rain Garden on Sandy Soil, Gary, Indiana." Water 17, no. 4 (2025): 510. https://doi.org/10.3390/w17040510.

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Rain gardens installed as green infrastructure to divert storm runoff from entering combined sewers also collect dissolved constituents and particulates. An urban rain garden in northwestern Indiana, USA, was continuously monitored from November 2019 to May 2021 to evaluate the fate of dissolved constituents entering the rain garden in runoff. Physical and chemical properties of soils in the rain garden were also monitored, along with underlying groundwater. Linear regression models relating specific conductance to chloride concentration indicated that the 0.0371-ha (3998 square feet) rain garden collected approximately 1490 kg (3285 pounds) of road salt from the surrounding 0.2228 ha (24,500 square feet) of impervious surfaces. Soils and groundwater were seasonally affected by road salt application but carryover from year to year was not indicated. Rain garden soil permeability (5.20 × 10−5 to 9.72 × 10−5 m/s) remained unchanged during the study period and soil organic carbon generally increased under native vegetation. The results suggest that a rain garden built on sandy soil can divert substantial quantities of runoff and dissolved constituents from combined sewers; however, chloride is transported to sub-infrastructure groundwater that eventually discharges to adjacent waterways with concentrations lower than those observed in runoff.
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Yang, Xiongwei, Xiaoxia Huang, Xing Hu, Xiaomao Cheng, and Yigui Luo. "Changes in Rhizosphere and Bulk Soil Microbial Communities of Tableland Tea Garden and Ancient Tea Plantation in Southwest China." Agronomy 14, no. 7 (2024): 1388. http://dx.doi.org/10.3390/agronomy14071388.

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Tea (Camellia sinensis L.), an important economic crop in China, is highly favored by the population. Microorganisms can help plants acquire soil nutrients and cope with various stresses, and the diversity and structural composition of the rhizosphere microbial community of tea plants are crucial for ensuring the growth and quality of tea leaves. Therefore, we studied the differences in soil nutrients, enzyme activities and microbial communities between two different tea gardens (a tableland tea garden and an ancient tea plantation) in different ecological niches (rhizosphere and bulk soil), as well as the impacts they experienced. The results show that the soil pH levels in the ancient tea plantation were within the optimal range (4.5–5.5), and both rhizosphere and bulk soil nutrients in the ancient tea plantation were higher than those in the tableland tea garden, except for TP; the nutrients in the rhizospheres of ancient tea trees were more abundant. Moreover, higher enzyme activities were observed in the rhizosphere soil than those in the bulk soil in both tea gardens, and both the tableland and ancient tea garden soils were subjected to a certain degree of C&N limitations. The microbial communities of the two tea gardens were dominated by bacteria, but the α-diversity of the bacterial and fungal communities in the rhizosphere soil of the tableland tea garden was higher than that in the ancient tea plantation. The bacterial communities were largely dominated by Proteobacteria and Acidobacteriota, and the fungal communities were largely dominated by Ascomycota and Basidiomycota in the two tea gardens. The structure and composition of soil bacterial communities in the two tea gardens were similar, whereas significant differences were observed in the fungal communities. In addition, soil pH and SWC were the key factors influencing the fungal community in both the rhizosphere and bulk soil in the two tea gardens, whereas the bacterial community was more significantly affected by soil TN, NH4+-N, SWC and DON. These findings provide essential foundational information for the preservation of ancient tea plantations, the ecological adaptability of ancient tea trees and the management of tableland tea gardens.
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Xue, Dong, Xiang Dong Huang, and Lian Xue. "Soil Microbial Community Structure in Tree Peony (Paeonia suffruticosa) Garden Based on PLFA Analysis." Applied Mechanics and Materials 675-677 (October 2014): 82–85. http://dx.doi.org/10.4028/www.scientific.net/amm.675-677.82.

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Understanding the chronological change in soil microbial community structure of tree peony garden ecosystem is important from ecological, environmental, and management perspectives. Soil samples were collected from three tree peony garden systems (5-, 12-, and 25-year-old tree peony gardens), and adjacent wasteland at Luoyang, Henan Province of China. Soil microbial community structure was analyzed by phospholipid fatty acid (PLFA) method. The bacterial and actinomycete PLFAs increased from the wasteland to 5-year-old tree peony garden and then decreased from the 5- to 25-year-old tree peony garden, and the fungal PLFA first increased and then decreased with the increasing planting years, with the greatest amount found in the 12-year-old tree peony garden. The conversion from the wasteland to tree peony garden resulted in a significant increase in Shannon index, Richness, and Evenness. However, with the succeeding development of tree peony garden ecosystems, Shannon index, Richness, and Evenness decreased from the 5- to 25-year-old tree peony garden.
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Malone, Maeve, and Kabindra M. Shakya. "Trace Metal Contamination in Community Garden Soils across the United States." Sustainability 16, no. 5 (2024): 1831. http://dx.doi.org/10.3390/su16051831.

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Community gardens are often seen as a means for producing sustainable food resources in urban communities. However, the presence of trace metals and metalloids such as lead, arsenic, and cadmium in urban soils poses a health risk to gardeners who participate in urban community gardens. They are exposed to these contaminates through multiple exposure pathways such as inhalation and ingestion directly through soil or through crops grown in the soil. Hot spots of soil contamination are higher in areas of cities with greater minority populations and lower incomes. This paper reviews the state of heavy metal contamination in community garden soils across the United States. This paper outlines the major sources of heavy metals in urban soils, exposure pathways, the ways to reduce heavy metal levels in garden soils, the means to slow down the uptake of heavy metals, and limit the exposure of these contaminates. The application of biochar and compost, implementing raised beds, and maintaining a natural pH are all examples of ways to mitigate heavy metal contaminants.
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Jahan, Israt, Jannat Shopan, Md Masudur Rahman, et al. "Long-Term Traditional Fertilization Alters Tea Garden Soil Properties and Tea Leaf Quality in Bangladesh." Agronomy 12, no. 9 (2022): 2128. http://dx.doi.org/10.3390/agronomy12092128.

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Soil acidity is one of the major soil-degradation events throughout the world, and the long-term application of nitrogenous fertilizers is thought to be a main cause of soil acidity. In the present experiment, we collected soil and tea (Camellia sinensis L.) leaf samples from five representative tea gardens in Bangladesh and evaluated soil nutrient pools and biochemical properties of tea leaves. The results showed that there was a negative relationship between soil pH and the amount of applied nitrogenous fertilizers. Moreover, continuous application of traditional fertilizers over twenty-five years promoted not only the deficiency of phosphorus (P) and mineral-based cations, such as potassium (K+), calcium (Ca2+), and magnesium (Mg2+), but also increased manganese (Mn2+) and aluminum (Al3+) toxicity in soils, which suppressed the yield and quality of tea. Crucially, tea leaf production remained almost similar (average 1079.77 kg ha−1) from 1995 to 2015, while the application doses of urea, TSP, and MoP increased by 24.69%, 18.92%, and 16.67%, respectively, in garden soils. However, the pH value of soil declined up to 24% from 1992 to 2020 in the tested gardens. Consequently, the availability of K+, P, Ca2+, and Mg2+ decreased by 56%, 25%, 55%, and 49%, respectively, in those tea garden soils. In addition, the quality of tea leaves was severely affected, as evident by the reduced levels of total flavonoids, polyphenols, soluble solids, vitamin C, vitamin B1, and vitamin B2. Moreover, free-radical scavenging activity (DPPH), caffeine, and tannin concentration were increased in tea leaves, which indicated that tea plants were potentially being stressed. Therefore, we study concluded that long-term application of traditional nitrogenous fertilizers can be an important regulator of lowering garden soil pH, which reduces native soil nutrient pools and thereby the yield and quality of tea leaves.
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ARTHAGAMA, I. DEWA MADE, and I. MADE DANA. "Evaluasi Kualitas Tanah Sawah Intensif dan Sawah yang Dikonversikan untuk Kebun di Subak Kesiut Kerambitan Tabanan." Agrotrop : Journal on Agriculture Science 10, no. 1 (2020): 1. http://dx.doi.org/10.24843/ajoas.2020.v10.i01.p01.

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Evaluation Quality of Intensif Paddy Soils and Conversion Paddy Soils to Garden at Subak Kesiut Kerambitan Tabanan. This experiment conducted to evaluate intensif Paddy Soils and conversion paddy soils to garden at SubakKesiut Kerambitan Tabanan. There were two steps applied in this study including field survey to determine the research area and points soils sampling; analysis soils properties are: physic, chemistry and soils biology for get minimum data set to determine the soil quality at Laboratory of Soils and Enveronment Faculty of Agriculture Unud. The results of this study showed: the soil quality of intensif paddy soils is better than conversion paddy soils to garden, that showed with SQR at intensif paddy soil is 18 and at conversions paddy soil is 25. The limiting faktor at conversion paddy soils to garden is P available, there are less than at intensif paddy soils.
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Črnec, Katja, Ana Strmčnik, and Borut Vrščaj. "HEAVY METAL CONTENT IN VEGETABLE GARDEN SOILS IN RELATION TO THEIR NATURAL BACKGROUND." Journal of Energy Technology 17, no. 3 (2025): 62–77. https://doi.org/10.18690/jet.17.3.62-77.2024.

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Heavy metals (HM) are present in soil naturally [1], due to the weathering of the element-rich parent rock and by anthropogenic sources (industry, energy production, agriculture, traffic) [2– 4]. The agricultural sources of increased HM concentrations in soil are HM-containing fertilizers and pesticides. Agricultural soils are often considered polluted, and are therefore subject to soil contamination monitoring for food safety reasons. Allotments are particularly at risk from intensive gardening, the general overuse of fertilizers, soil conditioners, often seen as a means of improving soil quality, in some cases the overuse or misuse of pesticides and, in the past, the use of coal ash. In some cases, landowners are also receiving untested and potentially polluted soils from elsewhere. Therefore, the soils of the vegetable/allotment gardens are generally considered to be ‘highly anthropogenized'. According to Slovenian legislation [5], the HM concentration is considered elevated if the HM concentration in the soil is above the limit immission value (LIV), polluted if it is above the warning immission value (WIV) and critically polluted if it is above the critical immission value (CIV). The HM content was analyzed in the soils of 20 allotment gardens in the village of Legen (Municipality of Slovenj Gradec, Carinthia, Slovenia). The soil samples were dried, ground and sieved in the FEP laboratory, and analyzed ‘by Bureau Veritas Commodities (Canada) using Aqua Regia extraction to determine the 'pseudo-total content' for 37 elements (Ag, Al, As, Au, B, Ba, Bi, Ca, Cd, Co, Cr, Cu, Fe, Ga, Hg, K, La, Mg, Mn, Mo, Na, Ni, P, Pb, S, Sb, Sc, Se, Sr, Te, Th, Ti, TI, U, V, W, and Zn), 10 of which (in the frames) are considered common HM soil contaminants. The comparison of the HM concentrations in the garden soils with the well-known rich natural geochemical background of the area showed that the values for all the compared metals, except Al, Fe, Ga, Sc, Th and Co, were higher than natural element backgrounds in the Eastern Alps and in Slovenia as a whole. The HM concentrations in the garden soils were within, or slightly above, the natural background values [1], but below the LIV, with the exception of Pb and Zn in four gardens, where the concentrations exceeded the WIV [6]. The garden soils in the Legen village area have been enriched anthropogenically, most likely by the introduction of manure, and, in one case, untested and contaminated soils from elsewhere. Most of the gardens are characteristically oversupplied with the nutrients P and K; the soils are moderately enriched with soil organic matter and have an average acidity of pH 6.7, which means that the soil is neutral.
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Rozprawy doktorskie na temat "Garden soil"

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Sen, Gargi. "Riddles of soil actinobacteria in tea gardens and selected other biotopes." Thesis, University of North Bengal, 2022. http://ir.nbu.ac.in/handle/123456789/4797.

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Baruzzi, Giada <1998&gt. "LABINCLUSIVE: “Our hands in the soil” A GARDEN IN THE GARDEN for an inclusive educational plan." Master's Degree Thesis, Università Ca' Foscari Venezia, 2022. http://hdl.handle.net/10579/21263.

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The School Community is the place where tomorrow’s citizens are formed, where students learn to relate to each other, to their surroundings and to themselves. Appropriately in light of this, cultivating a vegetable garden at school contains numerous meanings, such as (re)discovering the relationship between man and nature; nurturing ancient knowledge; learning through the teaching of learning-by-doing in order to reappropriate a manual skill and an experiential teaching that younger generations do not always have the chance to put into practice; learning through the teaching of social learning where students cooperate and act as an inclusive team. Therefore, the most important meaning is to "cultivate humanity". Through this laboratory activity, it is possible to put in relationships knowledge related to environmental sustainability and food education. In fact, following the life cycle of a vegetable, students can understand where the food they eat comes from and the operation of simple agriculture with vegetable bulbs typical of the region Emilia-Romagna. Hence, cultivating directly in the School Garden allows young people to deeply understand the value of what they eat and the importance of protecting the environment by consuming zero-mile products. Therefore, whether the Laboratory “Our hands in the soil” is included in a specific educational program, the function of food education in the garden becomes the engine to deepen fundamental concepts for the new generations and the environmental challenges that we are all called to support. As an educator of a student with special educational needs — attending the third class of the middle school in Lido Adriano, Ravenna — the focus of this dissertation is first to achieve pro-sociality and inclusion, which are reflected on the entire class-group. Consequently, cultivating a Garden at School has not only the aims of making learners aware about our territory, the seasonality of plants and the life cycle of Nature, therefore the focus includes raising consciousness about taking care of a collective good and knowing how to work in a team where everyone represents a fundamental key piece. In fact, it is an inclusive and multidisciplinary activity, where learners can more easily overcome barriers, encouraging dialogue and various constructive exchanges while putting into practice manual skills and practical activities and learning the art of waiting and care. The inclusive component — which appears to be a key element of the aforementioned dissertation — is extensively discussed in the first two chapters. In the first chapter the focus is on the inclusiveness of students with Special Educational Needs and the meanings of the terms "integration" and "inclusion", referring to the class group examined for the following educational laboratory. As an educator, my aim is to educate students in social and prosocial skills, and therefore the second chapter focuses on skills, diagnosis and educational plans created specifically to support the student (A.) with Special Educational Needs (BES), useful to understand the right interventions to be used and to put in place during the various school and extracurricular activities. In the following chapter (ch. 3), the Experiential Laboratory Project "Our hands in the soil" is introduced: the students of the class group of A. are involved in an active interaction between their peers, learning in action and in cooperation. Through this experimental activity, the learners have the opportunity to learn content and to mature experiences, collaborating with local associations. The garden becomes a "didactic experience" since minors can experience the value of care, the times of nature, the power of cooperation, the gratification of carrying out a personal and a shared project at the same time, etc, while achieving prosocial abilities.
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Hadebe, G. P., and der Westhuizen C. Van. "The impact of soil compaction on the vegetative growth of carrots (Daucus carota, var. Sativas) planted in loosened and unloosened soil in the Eastern Free State." Interim : Interdisciplinary Journal, Vol 4, Issue 2: Central University of Technology, Free State, Bloemfontein, 2005. http://hdl.handle.net/11462/438.

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Published Article<br>This study focuses on trials conducted on plots in the Leratong and Mpho vegetable gardens in the Eastern Free State. The aim was to investigate the possible impact of soil compaction on the growth of carrots planted on loosened (treated) and unloosened (untreated) soil. Aspects such as sprouting, vegetative length after 14 days of sprouting and diameter, as well as the length and mass of carrots after harvesting, were observed and compared between the treated and untreated carrot plots. Although there was no significant (P>0.05) difference between the two soil management practices applied in all locations, as well as the vegetative growth in the locations, a significant (P<0.05) difference between the length of carrots from the treated and the untreated plots was observed.
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Summerville, Kevin M. "Effectiveness of Amendments and Microbial Treatments on Plant Growth in Urban Garden Soils." Youngstown State University / OhioLINK, 2017. http://rave.ohiolink.edu/etdc/view?acc_num=ysu1495712379969062.

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Johansson, Jenny. "Förorenad mark vid plantskolor och handelsträdgårdar : Riskklassificering av fem plantskolor och handelsträdgårdar i Umeå kommun samt säkerställande av historisk användning av bekämpningsmedel." Thesis, Umeå universitet, Institutionen för ekologi, miljö och geovetenskap, 2015. http://urn.kb.se/resolve?urn=urn:nbn:se:umu:diva-103686.

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The purpose of the report was to do an inventory of nursery gardens in the surroundings of Umeå and to find which one of the nursery gardens that had the greatest risk of being polluted by pesticides and to examine which pesticides that had been used in the nursery gardens in the past. Five nursery gardens were selected and examined through interviews, visits and protocols from the municipality of Umeå and from that information an assessment by the methods for inventory of polluted soil (MIFO), which the Swedish form of EPA has designed, has been done. The historical use of pesticides on each site was examined through interviews, visits and protocols from municipality of Umeå. The result showed that two of the nursery gardens had a great risk of being polluted and the total historical use of pesticides resulted in total 107 different products. In conclusion the two of the nursery gardens that had a great risk of being polluted will eventually have to take sample of the soil for further analysis.
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Young, Kelly M. "Container Gardening In The Southwest Desert." College of Agriculture, University of Arizona (Tucson, AZ), 2016. http://hdl.handle.net/10150/625429.

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Hollinger, Eric, of Western Sydney Hawkesbury University, and Faculty of Environmental Management and Agriculture. "Links between management of a market garden and stormwater losses of sediment, nitrogen and phosphorus." THESIS_FEMA_XXX_Hollinger_E.xml, 1998. http://handle.uws.edu.au:8081/1959.7/306.

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Market gardening is commonly characterised by intensive cultivation, high inputs of both organic and inorganic fertilisers, chemical over/misuse, frequent irrigation, and a low degree of soil cover. While market gardening is readily perceived to be detrimental to waterways, there is remarkably little data to quantify the impacts. Soil and nutrient loss in stormwater runoff varies with soil type, climate and production systems. Therefore local data are needed to determine the impact of market gardening on the Hawkesbury-Nepean. This should lead to a better understanding of how land management influences runoff quantity and quality so that practices can be improved. Objectives of this research were to : quantify sediment, N and P loss and assess the implications for waterways; relate sediment, N and P losses to specific land management practices and assess their impacts on profitability; and, reflect on this research in terms of extension and adoption of better land management. An 8.8 ha property with 6.6 ha of market garden was used as a case study in the Hawkesbury-Nepean Catchment. Soil samples were collected at the beginning and end of the study. Sediment core samples were collected from the drainage channel. A rainfall simulator was used to compare runoff volume from green manure and bare fallow beds. The research produced several recommendations for the extension and adoption of improved land management. In order to reduce sediment, N and P losses in stormwater, the primary focus should be on improving soil and nutrient management, in particular matching fertiliser inputs more closely to nutrient requirements. The secondary focus should be on utilising structural measures, in particular farm dams, to prevent pollutants from entering waterways. The outcome should be decreased costs to the farmer and decreased impacts on waterways. The use of N-fixing green manure to decrease the use of poultry manure should be explored.<br>Master of Science (Hons)
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DeBusk, Kathy Marie. "Stormwater Treatment by Two Retrofit Infiltration Practices." Thesis, Virginia Tech, 2008. http://hdl.handle.net/10919/32757.

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Increases in impervious surfaces associated with urbanization change stream hydrology by increasing peak flow rates, storm-flow volumes and flood frequency, and degrade water quality through increases in sediment, nutrient, and bacteria concentrations. In response to water quality and quantity issues within the Stroubles Creek watershed, the Town of Blacksburg and Virginia Tech designed and constructed two innovative stormwater best management practices (BMPs). The goal of this project was to evaluate the effectiveness of a bioretention cell and a CU-Structural Soilâ ¢ infiltration trench. BMP construction was completed in July 2007. Twenty-nine precipitation events were monitored over a period of five months between October 2007 and March 2008. For each storm, inflow and outflow composite samples were collected for each BMP and analyzed for suspended sediment, total nitrogen, total phosphorus, fecal coliform bacteria and E-coli bacteria. The inflow and outflow concentrations and loads, as well as total inflow and outflow volumes and peak flow rates, were then compared to evaluate how well each BMP reduces stormwater flows, decrease peak runoff rates and improves water quality of stormwater runoff. Results for the bioretention cell indicate average reductions in stormwater quantity, sediment, total nitrogen, total phosphorus and fecal coliform bacteria that exceeded 99% by mass. The CU-Structural Soilâ ¢ infiltration trench produced reductions in stormwater quantity, total phosphorus and sediment that averaged 60%, 45% and 51%, respectively. Preliminary bacteria results indicated that both BMPs served as sources of E-coli, and the infiltration trench served as a source of fecal coliform bacteria.<br>Master of Science
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Childers, Todd Bradley. "The effect of low and high fertility treatments on soil quality, yields, pest incidence and labor requirements of a post-transitional organic market garden system." Morgantown, W. Va. : [West Virginia University Libraries], 2005. https://eidr.wvu.edu/etd/documentdata.eTD?documentid=4172.

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Thesis (M.S.)--West Virginia University, 2005.<br>Title from document title page. Document formatted into pages; contains vi, 66 p. : ill. (some col.). Includes abstract. Includes bibliographical references (p. 62-66).
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Asara, Viviana, and Giorgos Kallis. "Fertile soil: The production of Prefigurative Territories by the Indignados movement in Barcelona." WU Vienna University of Economics and Business, 2018. http://epub.wu.ac.at/6430/1/sre%2Ddisc%2D2018_03.pdf.

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Social movements do not only protest and demand political change - they produce new spaces too. Why and how? If we understand this, we can appreciate better the specificity and potential of the last cycle of mobilizations involving the encampment of cities' squares. This paper shows how the Indignados movement in Barcelona evolved from symbolizing an alternative future in the square to constructing alternatives in the city after. We find that people in alternative projects re-appropriate and transform urban space because they want to live differently and produce a radically different city, now. We conceptualize these new spaces as "prefigurative territories", integrating the seemingly divergent anarchist theory of prefiguration with Lefebvre's Marxist theory of space production. Prefigurative projects have strategic horizons and struggle with conflicts when opening up. Against those charging the Indignados with a fetishization of the occupied square and a failure to achieve political goals, we argue for the continuing relevance of the movement as it moved from the production of differential, to the production of counter-spaces. Further research should investigate how these counter-spaces feed into processes of political change.<br>Series: SRE - Discussion Papers
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Książki na temat "Garden soil"

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Hardgrave, Philip. Improving garden soils. Avon Books, 1991.

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R, Wilson Jay, United States. Natural Resources Conservation Service., and University of Nebraska (Lincoln campus). Conservation and Survey Division., eds. Soil survey of Garden County, Nebraska. The Service, 1999.

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Books, Ortho, ed. Improving your garden soil. Ortho Books, 1992.

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Hynes, Erin. Improving the soil. Rodale Press, 1994.

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Pitzer, Sara. Gardening in clay soil. Storey Communications, 1995.

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Paul, Bowles John, Pesch Barbara B, and Brooklyn Botanic Garden, eds. Soils. Brooklyn Botanic Garden, 1986.

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Ondra, Nancy J. Soil and composting: The complete guide to building healthy, fertile soil. Houghton Mifflin, 1998.

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Norris, Gunilla. A mystic garden: Working with soil, attending to soul. Novalis, 2006.

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Negovelov, S. F. Pochvy i sady. Izd-vo Rostovskogo universiteta, 1985.

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Spaeth, Kenneth E. Soil Health on the Farm, Ranch, and in the Garden. Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-40398-0.

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Części książek na temat "Garden soil"

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Sobers, Shawn-Naphtali. "(Garden) – Soil." In Black Everyday Lives, Material Culture and Narrative. Routledge, 2023. http://dx.doi.org/10.4324/9780367809621-17.

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Dixon, Geoff. "Understanding soil by growing potatoes and onions." In Garden Practices and Their Science. Routledge, 2018. http://dx.doi.org/10.4324/9781315457819-3.

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Koppelaar, Rembrandt, Antonino Marvuglia, and Benedetto Rugani. "Water Runoff and Catchment Improvement by Nature-Based Solution (NBS) Promotion in Private Household Gardens: An Agent-Based Model." In Future City. Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-71819-0_5.

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AbstractNature-based solutions (NBS) such as rainwater gardens and permeable paving can be deployed as an alternative to conventional urban gardens to improve cities’ resilience against increasing rainfall. This study describes the application of an agent-based model (ABM) to assess the role of private gardens toward the enhancement of water management by households. The ABM simulates the process of switching from “gray” (i.e., paved) to green gardens, taking into account the effect of “soft” (garden networks and gardening workshops) and “hard” (monetary) incentives. The ABM is supported by a water balance model to consider the effect of rainfall on soil water retention. Four different cities in Europe were analyzed: Szeged (Hungary), Alcalá de Henares (Spain), Metropolitan city of Milan (Italy), and Çankaya Municipality (Turkey). The results demonstrate that greening private gardens can generate impact on water run-off and catchment in cities in the order of 5–10%, reaching picks up to 20% in certain cases. While the proposed model is not devoid of limitations, the results provide useful insights in the ways different instruments (e.g., municipal subsidies and knowledge support) could assist with the greening of private gardens for NBS promotion to respond to cities’ water management challenges.
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Engel-Di Mauro, Salvatore. "Urban Vegetable Garden Soils and Lay Public Education on Soil Heavy Metal Exposure Mitigation." In Springer Geography. Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-16091-3_24.

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Spaeth, Kenneth E. "Soil-Hydrology-Plant Assessment Technologies for Cropland, Rangeland, Pastureland, and Gardens." In Soil Health on the Farm, Ranch, and in the Garden. Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-40398-0_7.

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Spaeth, Kenneth E. "Taming the Land: A Historical Perspective." In Soil Health on the Farm, Ranch, and in the Garden. Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-40398-0_1.

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Spaeth, Kenneth E. "The Ecological Connection in Farming, Ranching, and Gardening." In Soil Health on the Farm, Ranch, and in the Garden. Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-40398-0_2.

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Spaeth, Kenneth E. "Hydrology and Erosion Processes." In Soil Health on the Farm, Ranch, and in the Garden. Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-40398-0_3.

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Spaeth, Kenneth E. "Cover Crop Dynamics on Hydrology and Erosion." In Soil Health on the Farm, Ranch, and in the Garden. Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-40398-0_4.

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Spaeth, Kenneth E. "Vegetation Effects on Hydrology and Erosion: Grazinglands." In Soil Health on the Farm, Ranch, and in the Garden. Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-40398-0_5.

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Streszczenia konferencji na temat "Garden soil"

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Cherevko, Iryna, Tetiana Kril, Dmytro Bezrodnyi, and Serhii Popov. "DETERMINATION OF WATERLOGGING ZONES AND THEIR FACTORS USING NON-DESTRUCTIVE MONITORING METHODS AT HISTORICAL AND ARCHITECTURAL MONUMENTS." In 24th SGEM International Multidisciplinary Scientific GeoConference 24. STEF92 Technology, 2024. https://doi.org/10.5593/sgem2024/1.1/s02.21.

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The paper presents the results of determining waterlogging zones and their factors using non-destructive monitoring methods on the territory of the Kyiv-Pechersk Lavra Metropolitan's Garden. The research was carried out using the methods of electrotomography, natural electric field with the use of subsurface sounding radars. The results of electrotomography were interpreted using two- and three-dimensional models. The territory of the Upper Lavra Metropolitan�s Garden is a combination of complex engineering and geological conditions and technogenic development, which creates conditions for the development of dangerous engineering and geological processes and emergency situations. In terms of danger, this area belongs to the unstable sites for the preservation of world heritage historical monuments. The last accident on the water supply networks occurred in October 2022. It caused sinkholes on the surface, increasing the groundwater levels, and significant destruction of the underground structure of historical importance � the Metropolitan�s cellar. The existence of an anomalous cupola of leakage (soils of low resistance) observed in the western and central part of the area was established, which is probably the center of soil massif overwetting as a result of the heating network accident. The analysis of the adapted 3D model based on the results of non-destructive methods of the geological environment state monitoring allowed us to indirectly establish the places of unsatisfactory engineering networks (cold water supply) technical condition, where the waterlogging zone was recorded. The research has confirmed the presence of a man-made water inflow (leakages) from main water supply networks in the right part of all profiles, as a constant source and factor for waterlogging the soil foundations of architectural monuments � Monastery walls, Kushnyka tower, etc.
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Szopka, Katarzyna, Dariusz Gruszka, Iwona Gruss, Anna Karczewska, and Dorota Kawałko. "Selected indicators of soil health in variously contaminated urban garden soils." In 1st International Conference of Soil and Agriculture TOWARDS SOIL SUSTAINABILITY/9788372594570. Wydawnictwo UP w Lublinie, 2024. http://dx.doi.org/10.24326/icsa1.pp.29.

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Spirina, V. Z., L. V. Khotskova, and E. A. Zharikova. "PROPERTIES AND ELEMENT COMPOSITION OF SOILS OF THE DENDROLOGICAL TERRITORY OF THE SIBERIAN BOTANICAL GARDEN." In Prirodopol'zovanie i ohrana prirody: Ohrana pamjatnikov prirody, biologicheskogo i landshaftnogo raznoobrazija Tomskogo Priob'ja i drugih regionov Rossii. Izdatel'stvo Tomskogo gosudarstvennogo universiteta, 2020. http://dx.doi.org/10.17223/978-5-94621-954-9-2020-55.

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The properties, content and profile distribution of macroelements in the soils of the dendrological territory of the Siberian Botanical Garden were studied. The nature of the distribution of chemical elements in soil profiles is revealed depending on the intensity of sod, podzolic and glue soil formation processes.
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Li, Tianyu, Lidan Mu, Zhengjun Yang, Chunhua Zhang, and Ruifang Wang. "Soil Enzyme Activity and Physicochemical Properties of Tea Garden." In The International Conference on Biomedical Engineering and Bioinformatics. SCITEPRESS - Science and Technology Publications, 2022. http://dx.doi.org/10.5220/0011281000003443.

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Belozertseva, E. E. "GENERAL CONDITION OF THE CAMP GARDEN DRAINAGE MINING IN TOMSK." In Prirodopol'zovanie i ohrana prirody: Ohrana pamjatnikov prirody, biologicheskogo i landshaftnogo raznoobrazija Tomskogo Priob'ja i drugih regionov Rossii. Izdatel'stvo Tomskogo gosudarstvennogo universiteta, 2020. http://dx.doi.org/10.17223/978-5-94621-954-9-2020-63.

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The performance of the hydraulic structure and the general condition of the slope was assessed based on monitoring data for 2019 and previous years. It showed that attention should be paid to the destruction of drainage mining and the soaking of soils around it, this is evidenced by a decrease in water consumption and soil pressure in a fluid state.
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Latimer, Jennifer C., Claudia Cozadd, Katya Drake, Kathryn Mudica, and James Speer. "REVISITING SOIL LEAD SPATIAL VARIABILITY AT AN URBAN COMMUNITY GARDEN." In GSA Annual Meeting in Phoenix, Arizona, USA - 2019. Geological Society of America, 2019. http://dx.doi.org/10.1130/abs/2019am-338713.

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Muklisin, Doan Perdana, and Faisal Candrasyah Hasibuan. "WebGIS-Based Soil Fertility Information System in Cibodas Botanical Garden." In 2023 IEEE Asia Pacific Conference on Wireless and Mobile (APWiMob). IEEE, 2023. http://dx.doi.org/10.1109/apwimob59963.2023.10365647.

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Shan, Yu Tang, and Zhaobo K. Zheng. "Machine Learning Regression to Predict Soil Moisture in Domestic Garden Environments." In 2023 14th International Conference on Mechanical and Intelligent Manufacturing Technologies (ICMIMT). IEEE, 2023. http://dx.doi.org/10.1109/icmimt59138.2023.10199334.

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Larson, Mary, Candace Kairies-Beatty, Sydney Benson, and Jeanne Franz. "EVALUATING SOIL HEALTH IN THE SEED GARDEN AT WINONA STATE UNIVERSITY." In Joint 56th Annual North-Central/ 71st Annual Southeastern Section Meeting - 2022. Geological Society of America, 2022. http://dx.doi.org/10.1130/abs/2022nc-374467.

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Klimenko, O. E., N. N. Klimenko, and N. I. Klimenko. "Biologization is the way to sustainable development of Crimean garden agrocenoses." In РАЦИОНАЛЬНОЕ ИСПОЛЬЗОВАНИЕ ПРИРОДНЫХ РЕСУРСОВ В АГРОЦЕНОЗАХ. Federal State Budget Scientific Institution “Research Institute of Agriculture of Crimea”, 2020. http://dx.doi.org/10.33952/2542-0720-15.05.2020.01.

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The intensification of agricultural production, which involves the use of highly productive plant varieties, high-performance equipment, high doses of mineral fertilizers and pesticides leads to soil degradation and environmental contamination. In this regard, alternative methods of agricultural production replace agricultural intensification. To increase the sustainability and environmental friendliness of garden agrocenoses it is necessary to reduce the chemical load and intensify biological processes by planting green manure crops and perennial herbs, as well as increase microbial diversity through application of microbial fertilizers. We offer the use of various methods of gardening biologization: sod-humus or green manure row spacing systems with different grasses and microbial fertilizers. We conducted comprehensive studies of the effect of MP on the growth and productivity of seedlings of stone fruit plants. The most effective MPs, their doses and methods of application for growing grafted annual seedlings of peach, cherry, apricot and cherry plum, as well as their effect on soil properties, have been determined. A joint positive effect of soil sodding with a mixture of cereal-bean perennial herbs and the use of MP on soil properties and ampelocenosis state in the foothill Crimea was established. In general, the use of biologization elements can increase soil fertility and fruit plants and grapes productivity by 10- 20 %.
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Raporty organizacyjne na temat "Garden soil"

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Bendfeldt, Eric, and Gerald Garber. Soil, Conservation, and Place: Gerald Garber of Cave View Farms. Virginia Cooperative Extension, 2021. http://dx.doi.org/10.21061/spes-213np_spes-289np.

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Fresquez, P. R., D. R. Armstrong, and J. G. Salazar. Radionuclide concentrations in soils and produce from Cochiti, Jemez, Taos, and San Ildefonso Pueblo Gardens. Office of Scientific and Technical Information (OSTI), 1995. http://dx.doi.org/10.2172/79064.

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Cannon, Mariah, and Pauline Oosterhoff. Tired and Trapped: Life Stories from Cotton Millworkers in Tamil Nadu. Institute of Development Studies, 2021. http://dx.doi.org/10.19088/clarissa.2021.002.

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Labour abuse in the garment industry has been widely reported. This qualitative research explores the lived experiences in communities with bonded labour in Tamil Nadu, India. We conducted a qualitative expert-led analysis of 301 life stories of mostly women and girls. We also explore the differences and similarities between qualitative expert-led and participatory narrative analyses of life stories of people living near to and working in the spinning mills. Our findings show that the young female workforce, many of whom entered the workforce as children, are seen and treated as belonging – body, mind and soul – to others. Their stories confirm the need for a feminist approach to gender, race, caste and work that recognises the complexity of power. Oppression and domination have material, psychological and emotional forms that go far beyond the mill. Almost all the girls reported physical and psychological exhaustion from gendered unpaid domestic work, underpaid hazardous labour, little sleep, poor nutrition and being in unhealthy environments.
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Battams, Nathan. Coup d’œil sur les grands-parents au Canada (mai 2019 – mise à jour). L'institut Vanier de la famille, 2019. http://dx.doi.org/10.61959/disx1332f.

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Au Canada, les grands-parents forment un groupe très diversifié et plusieurs participent activement au bien-être de la famille et à son fonctionnement, notamment dans leurs rôles de mentors, d’éducateurs, d’aidants, de gardiens d’enfants, d’historiens, de guides spirituels et de « dépositaires de la mémoire familiale ». Certes, la population du Canada est vieillissante et l’espérance de vie continue de s’allonger, c’est pourquoi il faut s’attendre à voir les grands-parents de plus en plus présents dans le quotidien de nombreuses familles au cours des prochaines années. Au Canada, le nombre d’aînés au sein de la population active ne cesse d’augmenter, et ceux-ci jouent un rôle de plus en plus senti sur le marché du travail. Cependant, ce virage entraîne aussi des répercussions pour les familles qui comptent sur les grands-parents pour s’occuper des petits-enfants ou d’autres membres de la famille. Par ailleurs, le cadre de vie des grands-parents continue de se transformer, à l’heure où ceux-ci sont de plus en plus nombreux à cohabiter avec les générations plus jeunes tout en contribuant aux ménages des familles. Les données récemment publiées dans le cadre de l’Enquête sociale générale de 2017 nous ont permis de mettre à jour l’une de nos ressources les plus consultées, soit la publication Coup d’œil sur les grands-parents au Canada, qui propose un portrait statistique des grands-parents, de leurs relations familiales et de certaines des tendances socioéconomiques qui sont au cœur de cette évolution.
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La Déclaration de Münster sur les principes d'éthique et d'intégrité de la recherche. Munster Technological University, 2025. https://doi.org/10.34719/kktt6454.

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"&lt;p&gt;INGENIUM est une alliance de dix établissements d'enseignement supérieur de dix pays européens. Cette université européenne vise à permettre à chaque membre du réseau de proposer des programmes d'études et de qualification de haute qualité avec des composantes numériques partagées au sein de l'Alliance INGENIUM.&lt;/p&gt; &lt;p&gt;Dans les établissements d'enseignement supérieur, l'accent est de plus en plus mis sur la promotion de bonnes pratiques de recherche dans tous les aspects de la recherche12, y compris la recherche fondamentale, la recherche appliquée et la commercialisation. L'éthique de la recherche (ER) et l'intégrité de la recherche (IR) soutiennent l'activité et l'excellence de la recherche et sont considérées comme des éléments essentiels de base permettant aux chercheurs de se faire confiance de faire confiance aux résultats de la recherche3, ainsi que de renforcer la confiance du public dans la science et les résultats scientifiques4. Cependant, compte tenu de la multitude de lignes directrices de haut niveau existantes, il est essentiel d'élaborer une déclaration permettant une approche cohérente de l'ER et de l'IR dans l'ensemble d'INGENIUM.&lt;/p&gt; &lt;p&gt;L'ER et l'IR étant pertinentes pour la recherche dans toutes les disciplines, il est crucial qu'une déclaration sur leurs bonnes pratiques soit basée sur l'expérience de plusieurs disciplines. Pour répondre à ce besoin, l'alliance INGENIUM a soutenu la création de MARIE – Multidisciplinary Approach to Research Integrity and Ethics – qui a conduit à l'élaboration de la Déclaration de Münster. L'objectif de la déclaration est de soutenir les chercheurs d'INGENIUM, en exigeant un engagement inébranlable à l'égard de principes clairs et cohérents d’ER et d'IR à tous les niveaux de leurs collaborations. Cet engagement devrait, dans la mesure du possible, éviter les cas de manquement et de pratiques inacceptables en recherche.&lt;/p&gt; &lt;p&gt;MARIE est un projet financé par les groupes de recherche INGENIUM 2024, dont l'expertise des membres couvre de nombreux domaines, notamment les mathématiques, l'ingénierie, l'informatique, l'intelligence artificielle, les neurosciences, la santé, la bioéthique, l'éthique appliquée et la sociologie. L'utilisation des connaissances multidisciplinaires collectives des membres de MARIE sur l'ER et la mise en oeuvre de l'IR pour ancrer davantage les bonnes pratiques de recherche garantissent que les résultats de MARIE seront bénéfiques dans plusieurs disciplines de l'alliance INGENIUM, renforçant ainsi le rôle d'INGENIUM à l'avant-garde des initiatives d’ER et d’IR. En travaillant en collaboration et collectivement au sein de l'alliance INGENIUM sur l'ER et l'IR, et en suivant les contributions des parties prenantes locales, nous, les membres du projet MARIE, avons élaboré la Déclaration de Münster.&lt;/p&gt; &lt;p&gt;La Déclaration de Münster décrit les principes de l'ER et de l'IR, ainsi que les termes étroitement liés « manquements en recherche » et « pratiques de recherche inacceptables », qui sont harmonisés à l’échelle d'INGENIUM, et doit être lue conjointement avec les politiques et procédures locales et nationales liées à la recherche.&lt;/p&gt; &lt;p&gt;La Déclaration de Münster est soutenue par l'école de recherche INGENIUM.&lt;/p&gt;"
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