504 research outputs found
Evaluation of the seasonal formation of subsurface negative preformed nitrate anomalies in the subtropical North Pacific and North Atlantic
Summertime mixed-layer drawdown of dissolved inorganic carbon in
the absence of measurable nutrients in the ocean's subtropical gyres and
non-Redfieldian oxygen : nitrate relationships in the underlying subsurface
waters are two biogeochemical phenomena that have thus far eluded complete
description. Many processes are thought to contribute to one or both,
including lateral nutrient transport, carbon overconsumption or non-Redfield
C : N : P organic matter cycling, heterotrophic nutrient uptake, and the
actions of vertically migrating phytoplankton. To obtain insight into the
likely magnitude of potential contributing mechanisms that can remove nitrate
from the nutricline while supporting dissolved inorganic carbon (DIC)
drawdown tens of meters higher in the water column, we investigated the
seasonal formation rates for negative preformed nitrate (preNO3)
anomalies (oxygen consumption without stoichiometric nitrate release) in the
subsurface and positive preformed nitrate anomalies (oxygen production
without stoichiometric nitrate drawdown) in the euphotic zone at the
subtropical ocean time series stations ALOHA (A Long-Term Oligotrophic Habitat
Assessment) in the North Pacific and BATS (Bermuda Atlantic Time-series Study) in
the North Atlantic. Non-Redfield −O2 : N stoichiometry for dissolved
organic matter (DOM) remineralization accounts for up to  ∼ 15 mmol N m−2 yr−1 of negative preNO3 anomaly
formation at both stations. We present a new formulation for calculating
preNO3 (residual preNO3) that includes components resulting
from non-Redfield DOM cycling. Residual negative preNO3 anomalies in
excess of that which can be accounted for by non-Redfield DOM cycling are
found to accumulate at a rate of  ∼ 32–46 mmol N m−2 yr−1
at Station ALOHA and  ∼ 46–87 mmol N m−2 yr−1 at the BATS
station. These negative anomaly formation rates are in approximate balance
with residual positive preNO3 anomaly formation rates from the
euphotic zone located immediately above the nutricline in the water column.
We evaluate three mechanisms to explain these anomalies, calculating that
transparent exopolymer particle (TEP) cycling and heterotrophic nitrate
uptake can contribute to the formation of both residual preNO3
anomalies. However, a significant fraction, estimated at  ∼ 50 %–95 %,
is unexplained by the sum of these processes. Vertically migrating
phytoplankton possess the necessary distribution, nutrient acquisition
strategy, and biogeochemical signature to simultaneously remove nitrate at
depth and transport it above the nutricline. Reported transport rates by
known migrators equal or exceed the residual preNO3 anomaly formation
rates and potentially explain both the negative and positive residual
preNO3 anomalies as well as the mixed-layer DIC drawdown at the stations
ALOHA and BATS within the limits of scarce detailed abundance profiles.
However, the three processes examined are not independent and mutually
exclusive. The model Rhizosolenia mat system (and perhaps other
migrators) produces TEPs, suggesting that migration could provide accelerated
vertical transport of TEPs and provide labile carbon for heterotrophic
nitrate uptake. These results based on geochemical distributions suggest
that, in the absence of additional mechanisms and rates, phytoplankton vertical
migrators, although rare and easily overlooked, play a larger role in
subtropical ocean nutrient cycling and the biological pump than generally
recognized.</p
What weight changes really happened during COVID-19 among older adults?
Worldwide, the coronavirus disease 19 (COVID-19) pandemic disrupted life for individuals of all ages, but it had a particularly negative impact on older adults aged 65 and older. As a result of the illness, older adults faced a higher degree of medical complications, hospitalizations, cognitive dysfunction, and weakness. Socio-environmental factors including physical distancing, quarantines, and stay-at-home orders prevented individuals in their ability to conduct usual daily activities. These all further exacerbated the development of existing and new mental health manifestations
Nitrogen fixation and transfer in open ocean diatom–cyanobacterial symbioses
Many diatoms that inhabit low-nutrient waters of the open ocean live in close association with cyanobacteria. Some of these associations are believed to be mutualistic, where N2-fixing cyanobacterial symbionts provide N for the diatoms. Rates of N2 fixation by symbiotic cyanobacteria and the N transfer to their diatom partners were measured using a high-resolution nanometer scale secondary ion mass spectrometry approach in natural populations. Cell-specific rates of N2 fixation (1.15–71.5 fmol N per cell h−1) were similar amongst the symbioses and rapid transfer (within 30 min) of fixed N was also measured. Similar growth rates for the diatoms and their symbionts were determined and the symbiotic growth rates were higher than those estimated for free-living cells. The N2 fixation rates estimated for Richelia and Calothrix symbionts were 171–420 times higher when the cells were symbiotic compared with the rates estimated for the cells living freely. When combined, the latter two results suggest that the diatom partners influence the growth and metabolism of their cyanobacterial symbionts. We estimated that Richelia fix 81–744% more N than needed for their own growth and up to 97.3% of the fixed N is transferred to the diatom partners. This study provides new information on the mechanisms controlling N input into the open ocean by symbiotic microorganisms, which are widespread and important for oceanic primary production. Further, this is the first demonstration of N transfer from an N2 fixer to a unicellular partner. These symbioses are important models for molecular regulation and nutrient exchange in symbiotic systems
Evaluación de algunos parámetros de calidad del agua en un sistema cerrado de recirculación para la acuicultura, sometido a diferentes cargas de biomasa de peces
Utilizing different loadings of biomass of the Nile Tilapia Oreochromis niloticus and rainbow trout Oncorhynchus mykiss, some water quality parameters were evaluated in a closed aquaculture recirculating system. The systems is integrated by six culture tanks, a sedimentation cistern, two submerged bio-filters, a fast sand filter, two pumps, a reconditioning-water reservoir and a unit of ultraviolet light lamps. Fishes were fed twice a day for 120 days with 2% of their total biomass. The following water quality parameters were recorded: water temperature, dissolved oxygen, pH, total ammonium nitrogen (TAN), ammonia, nitrate and chemical oxygen demand. The data were analyzed with a one-way ANOVA to determine statistical differences in the components of the system. The average values of TAN and nitrate indicated a high efficiency of the nitrification process at different fish loading of biomass. About 50% of TAN and more than 90% of ammonia was stripped into the atmosphere and this explains the low levels measured in the other components of the system. Other causes that contribute to the removal of nitrogen compounds were the assimilation by microorganism accumulated in the bottom of the sedimentation tank and the absorption and adsorption by the sludge. Results showed that the water quality parameters were satisfactory for 99% survivorship and an acceptable growth rate for both fish species.El objetivo de este estudio, fue evaluar algunos parámetros de calidad del agua en un sistema cerrado de recirculación utilizado en la acuicultura, sometido a distintas cargas de biomasa de Tilapia del NiloOreochromis niloticus y de trucha arco iris Oncorhynchus mykiss. El sistema consiste de seis estanques de cultivo, una cisterna de sedimentación, dos piletas con biofiltros sumergidos, un filtro de arena rápido, dos bombas, una pileta de reacondicionamiento y una unidad de lámparas de luz ultravioleta. Los peces fueron alimentados durante 120 dÃas dos veces al dÃa con el 2% de su biomasa total. Se registraron los siguientes parámetros de calidad del agua: temperatura, oxÃgeno disuelto, pH, nitrógeno amoniacal total (NAT), amoniaco, nitrato y demanda quÃmica de oxÃgeno. Los datos se analizaron con un ANDEVA de una sola vÃa para detectar diferencias significativas entre los componentes del sistema. Los valores promedio de NAT y nitrato indicaron una alta eficiencia en los procesos de nitrificación, aún cuando el sistema fue sometido a diferentes cargas de biomasa de peces. Los bajos valores detectados de NAT y amoniaco se debieron al arrastre eficiente hacia la atmósfera (50% NAT y más del 90% respectivamente). Otras posibles causas que contribuyeron a la eliminación de los compuestos nitrogenados, fueron la asimilación por microorganismos presentes en los lodos acumulados en la cisterna de sedimentación, además de la absorción y la adsorción por los lodos. Los resultados mostraron que la calidad del agua mantenida en el sistema permitió el 99% de sobrevivencia de ambas especies y una tasa de crecimiento aceptable
Formation of bone-like apatite layer on chitosan fiber mesh scaffolds by a biomimetic spraying process
Bone-like apatite coating of polymeric substrates
by means of biomimetic process is a possible
way to enhance the bone bonding ability of the
materials. The created apatite layer is believed to have
an ability to provide a favorable environment for
osteoblasts or osteoprogenitor cells. The purpose of
this study is to obtain bone-like apatite layer onto
chitosan fiber mesh tissue engineering scaffolds, by
means of using a simple biomimetic coating process
and to determine the influence of this coating on
osteoblastic cell responses. Chitosan fiber mesh scaffolds
produced by a previously described wet spinning
methodology were initially wet with a Bioglass"–water
suspension by means of a spraying methodology and
then immersed in a simulated body fluid (SBF)
mimicking physiological conditions for one week. The
formation of apatite layer was observed morphologically
by scanning electron microscopy (SEM). As a
result of the use of the novel spraying methodology, a
fine coating could also be observed penetrating into the
pores, that is clearly within the bulk of the scaffolds.
Fourier Transform Infrared spectroscopy (FTIRATR),
Electron Dispersive Spectroscopy (EDS) and
X-ray diffraction (XRD) analysis also confirmed the
presence of apatite-like layer. A human osteoblast-like
cell line (SaOs-2) was used for the direct cell contact assays. After 2 weeks of culture, samples were observed
under the SEM. When compared to the control
samples (unmodified chitosan fiber mesh scaffolds) the
cell population was found to be higher in the Ca–P
biomimetic coated scaffolds, which indicates that the
levels of cell proliferation on this kind of scaffolds
could be enhanced. Furthermore, it was also observed
that the cells seeded in the Ca–P coated scaffolds have
a more spread and flat morphology, which reveals an
improvement on the cell adhesion patterns, phenomena
that are always important in processes such as
osteoconduction
Sarcopenic obesity research perspectives outlined by the sarcopenic obesity global leadership initiative (SOGLI) – Proceedings from the SOGLI consortium meeting in rome November 2022
The European Society for Clinical Nutrition and Metabolism (ESPEN) and the European Association for the Study of Obesity (EASO) launched the Sarcopenic Obesity Global Leadership Initiative (SOGLI) to reach expert consensus on a definition and diagnostic criteria for Sarcopenic Obesity (SO). The present paper describes the proceeding of the Sarcopenic Obesity Global Leadership Initiative (SOGLI) meeting that was held on November 25th and 26th, 2022 in Rome, Italy. This consortium involved the participation of 50 researchers from different geographic regions and countries. The document outlines an agenda advocated by the SOGLI expert panel regarding the pathophysiology, screening, diagnosis, staging and treatment of SO that needs to be prioritized for future research in the field
Effective SLOPE: EffectS of Lifestyle interventions in Older PEople with obesity: a systematic review and network meta-analysis protocol
Introduction Obesity is highly prevalent in older adults aged 65 years or older. Different lifestyle interventions (diet, exercise, self-management) are available but benefits and harms have not been fully quantified comparing all available health promotion interventions. Special consideration must be given to functional outcomes and possible adverse effects (loss of muscle and bone mass, hypoglycaemia) of weight loss interventions in this age group. The objective of this study is to synthesise the evidence regarding the effects of different types and modalities of lifestyle interventions, or their combinations, on physical function and obesity-related outcomes such as body composition in older adults with obesity. Methods and analyses Six databases (Medline, Embase, Cochrane Central Register of Controlled Trials, Cumulated Index to Nursing and Allied Health Literature (CINAHL), Psychinfo and Web of Science) and two trial registries (Clinicaltrials.gov and the WHO International Clinical Trials Registry Platform) will be searched for randomised controlled trials of lifestyle interventions in older adults with obesity. Screening (title/abstract and full-text) and data extraction of references as well as assessment of risk of bias and rating of the certainty of evidence (Grading of Recommendations, Assessment, Development and Evaluation for network meta-analyses) will be performed by two reviewers independently. Frequentist random-effects network meta-analyses will be conducted to determine the pooled effects from each intervention. Ethics and dissemination We will submit our findings to peer-reviewed journals and present at national and international conferences as well as in scientific medical societies. Patient-targeted dissemination will involve local and national advocate groups. PROSPERO registration number CRD42019147286
Group 3 ITI Consensus Report: Patient-reported outcome measures associated with implant dentistry
Objectives: The aim of Working Group 3 was to focus on three topics that were assessed using patient-reported outcome measures (PROMs). These topics included the following: (a) the aesthetics of tooth and implant-supported fixed dental prostheses focusing on partially edentulous patients, (b) a comparison of fixed and removable implant-retained prostheses for edentulous populations, and (c) immediate versus early/conventional loading of immediately placed implants in partially edentate patients. PROMs include ratings of satisfaction and oral health-related quality of life (QHRQoL), as well as other indicators, that is, pain, general health-related quality of life (e.g., SF-36). Materials and methods: The Consensus Conference Group 3 participants discussed the findings of the three systematic review manuscripts. Following comprehensive discussions, participants developed consensus statements and recommendations that were then discussed in larger plenary sessions. Following this, any necessary modifications were made and approved. Results: Patients were very satisfied with the aesthetics of implant-supported fixed dental prostheses and the surrounding mucosa. Implant neck design, restorative material, or use of a provisional restoration did not influence patients’ ratings. Edentulous patients highly rate both removable and fixed implant-supported prostheses. However, they rate their ability to maintain their oral hygiene significantly higher with the removable prosthesis. Both immediate provisionalization and conventional loading receive positive patient-reported outcomes. Conclusions: Patient-reported outcome measures should be gathered in every clinical study in which the outcomes of oral rehabilitation with dental implants are investigated. PROMs, such as patients’ satisfaction and QHRQoL, should supplement other clinical parameters in our clinical definition of success
Effekte von Lebensstilinterventionen auf Funktionalität und fettfreie Masse bei älteren Menschen mit Adipositas – eine systematische Übersichtsarbeit mit Netzwerkmetaanalysen
Bei älteren Personen mit Adipositas erhalten multimodale Lebensstilinterventionen die FFM und verbessern die körperliche Funktion, was für den Erhalt der Selbständigkeit einen besonderen Beitrag leisten kann
The rise and fall of methanotrophy following a deepwater oil-well blowout
The blowout of the Macondo oil well in the Gulf of Mexico in April 2010 injected up to 500,000 tonnes of natural gas, mainly methane, into the deep sea1. Most of the methane released was thought to have been consumed by marine microbes between July and August 20102, 3. Here, we report spatially extensive measurements of methane concentrations and oxidation rates in the nine months following the spill. We show that although gas-rich deepwater plumes were a short-lived feature, water column concentrations of methane remained above background levels throughout the rest of the year. Rates of microbial methane oxidation peaked in the deepwater plumes in May and early June, coincident with a rapid rise in the abundance of known and new methane-oxidizing microbes. At this time, rates of methane oxidation reached up to 5,900 nmol l−1 d−1—the highest rates documented in the global pelagic ocean before the blowout4. Rates of methane oxidation fell to less than 50 nmol l−1 d−1 in late June, and continued to decline throughout the remainder of the year. We suggest the precipitous drop in methane consumption in late June, despite the persistence of methane in the water column, underscores the important role that physiological and environmental factors play in constraining the activity of methane-oxidizing bacteria in the Gulf of Mexico
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