Carmine Fusaro scite author profile

Introduction: On the eleventh of March 2020, the World Health Organization (WHO) declared the novel coronavirus disease 2019 (COVID-19) a pandemic by the number of cases and deaths worldwide: more than 91.1 million confirmed cases and approx. 1.9 million deaths globally, as of date. The aims of this systematic review were to identify and to evaluate the reports associated on Knowledge, Attitude and Practices (KAP) towards COVID-19 pandemic in America. Methodology: The Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) guidelines were adopted for searching reports published from December 2019 to September 2020, regarding “COVID-19 KAP” across six electronic databases. Inclusion and exclusion criteria were taken up to select the articles and focus to the topic. Results: Thirteen scientific papers were finally eligible and included in this systematic review. The surveys were directed to common citizens, healthcare workers and patients with chronic conditions. General public acquired information about COVID-19 mainly through social media; several misconceptions due to falsehoods circulating on-line were identified. The pandemic COVID-19 has severely affected the physical and emotional health of many people in America. Nevertheless, many American citizens do not recognize or have poor knowledge about COVID-19 risks. Conclusions: This systematic review brings information for governments and scientific community that may be useful in the development of official awareness and prevention campaigns aiming mainly at marginated groups of the society.

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Soil microbial diversity drops with land‐use change in a high mountain temperate forest: a metagenomics survey

Muñoz-Arenas

Fusaro

Hernández‐Guzmán

et al. 2020

Environ Microbiol Rep

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Summary Land‐use change has been identified as the most severe threat to biodiversity. Soils are important biodiversity reservoirs, but to what extent conversion of high‐altitude temperate forest to arable land affects taxonomic and functional soil biodiversity is still largely unknown. Shotgun metagenomics was used to determine the taxonomic and functional diversity of bacteria, archaea and DNA virus in terms of effective number of species in high‐altitude temperate oak and pine‐oak forest and arable soils from Mexico. Generally, the soil ecosystem maintained its microbial species richness notwithstanding land‐use change. Archaea diversity was not affected by land‐use change, but the bacterial diversity decreased with 45–55% when the oak forest was converted to arable land and 65–75% when the pine‐oak forest was. Loss in bacterial diversity as a result of land‐use change was positively correlated (R2 = 0.41) with the 10–25% loss in functional diversity. The archaeal communities were evener than the bacterial ones, which might explain their different response to land‐use change. We expected a decrease in DNA viral communities as the bacterial diversity decreased, i.e. their potential hosts. However, a higher viral diversity was found in the arable than in the forest soils. It was found that converting high altitude oak and pine‐oak forests to arable land more than halved the bacterial diversity, but did not affect the archaeal and even increased the viral diversity.

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Molecular identification of Giardia spp. in Latin America: An updated systematic review on reports from 2017 to 2021

Sarria-Guzmán

Chávez-Romero

Bernal

et al. 2022

J Infect Dev Ctries

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Background: Giardia spp. is the most common protozoan found in coproparasitoscopic tests; it is the cause of gastrointestinal discomfort, with a high prevalence in children and in low-income areas. This systematic review updates available literature on molecular identification of Giardia spp. in Latin America during 2017 to 2021. Methodology: The guidelines established in Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) were used; the study covers the period from January 1, 2017 to October 03, 2021; the search focused on the “molecular identification of Giardia spp. in Latin America” in six different scientific databases. The material found was reviewed to select only those papers that met the inclusion and exclusion criteria. Results: The search yielded 1036 publications, but only 19 investigations in 6 countries (Brazil, Colombia, Cuba, Ecuador, Mexico, and Venezuela) met the selection criteria. Most were cross-sectional studies carried out in school-age children, the dominant assemblages were A and B while the most frequent subassemblages were AII, BIII and BIV, the most used target genes were tpi and gdh, the prevalence by molecular methods was higher regarding microscopy, the countries with the highest prevalence percentages for Giardiosis were Brazil and Cuba. Conclusions: More Latin America countries need to generate data of prevalence, incidence, and intensity of Giardiosis. Studies are also needed to estimate the costs of Giardiosis on economic productivity and public health. The present systematic review offers evidence based on the current literature available for the molecular identification of Giardia spp. in Latin America during 2017 to 2021.

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Land use is the main driver of soil organic carbon spatial distribution in a high mountain ecosystem

Fusaro

Sarria-Guzmán

Chávez-Romero

et al. 2019

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BackgroundTerrestrial ecosystems play a significant role in carbon (C) storage. Human activities, such as urbanization, infrastructure, and land use change, can reduce significantly the C stored in the soil. The aim of this research was to measure the spatial variability of soil organic C (SOC) in the national park La Malinche (NPLM) in the central highlands of Mexico as an example of highland ecosystems and to determine the impact of land use change on the SOC stocks through deterministic and geostatistical geographic information system (GIS) based methods.MethodsThe soil was collected from different landscapes, that is, pine, fir, oak and mixed forests, natural grassland, moor and arable land, and organic C content determined. Different GIS-based deterministic (inverse distance weighting, local polynomial interpolation and radial basis function) and geostatistical interpolation techniques (ordinary kriging, cokriging and empirical Bayes kriging) were used to map the SOC stocks and other environmental variables of the top soil layer.ResultsAll interpolation GIS-based methods described the spatial distribution of SOC of the NPLM satisfactorily. The total SOC stock of the NPLM was 2.45 Tg C with 85.3% in the forest (1.26 Tg C in the A horizon and 0.83 Tg C in the O horizon), 11.4% in the arable soil (0.23 Tg in the A horizon and only 0.05 Tg C in the O horizon) and 3.3% in the high moor (0.07 Tg C in the A horizon and <0.01 Tg C in the O horizon). The estimated total SOC stock in a preserved part of the forest in NPLM was 4.98 Tg C in 1938 and has nearly halved since then. Continuing this trend of converting all the remaining forest to arable land will decrease the total SOC stock to 0.52 Tg C.DiscussionDifferent factors explain the large variations in SOC stocks found in this study but the change in land use (conversion of forests into agricultural lands) was the major reason for the reduction of the SOC stocks in the high mountain ecosystem of the NPLM. Large amounts of C, however, could be stored potentially in this ecosystem if the area was used more sustainable. The information derived from this study could be used to recommend strategies to reverse the SOC loss in NPLM and other high-altitude temperate forests and sequester larger quantities of C. This research can serve as a reference for the analysis of SOC distribution in similar mountain ecosystems in central part of Mexico and in other parts of the world.

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Carbon Nanotubes as Plant Growth Regulators: Prospects

Pérez‐Hernández

Medina‐Pérez

Vera‐Reyes

et al. 2020

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Carmine Fusaro

Knowledge, Attitude and Practices (KAP) towards COVID-19 pandemic in America: A preliminary systematic review

Soil microbial diversity drops with land‐use change in a high mountain temperate forest: a metagenomics survey

Molecular identification of Giardia spp. in Latin America: An updated systematic review on reports from 2017 to 2021

Land use is the main driver of soil organic carbon spatial distribution in a high mountain ecosystem

Carbon Nanotubes as Plant Growth Regulators: Prospects

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