Search results for "COLON"

The role of phanerogams and cryptogams in the recolonization of cork oak forests crossed by wildfire in Sicily

2017

The actual distribution and structure of cork oak woods is the result of a process of anthropogenic alteration (utilization of cork, deforestation, coppicing, overgrazing, changes in land use, fire). Additional causes of threats in Q suber woods are pests and fungal disease. Although cork oak is an active pyrophyte the decortication of trunks makes trees more vulnerable to external agents and to fire in particular. Post-fire species are mainly carbonicolous fungi, some Ascomycetes make their appearance after around six weeks while other fungi begin to appear from the second year. The proliferation of fungal hyphae in the ash, as well as of some pioneer mosse protonemata, promotes soil aggre…

Bioaerosol

2022

Cultural heritage constitutive materials can provide excellent substrates for microbial colonisation, highly influenced by thermo-hygrometric parameters. In cultural heritage-related environments, a detrimental microbial load may be present both on artworks surface and in the aerosol. Confined environments (museums, archives, deposits, caves, hypogea) are characterised by peculiarstructures and different thermo-hygrometric conditions, influencing the development of a wide range of microbial species, able to induce artefact biodeterioration and to release biological particles in the aerosol (spores, cellular debrides, toxins, allergens) potentially dangerous for the human health (visitors/us…

Bioarosol

2022

Cultural heritage constitutive materials can provide excellent substrates for microbial colonisation, highly influenced by thermo-hygrometric parameters. In cultural heritage-related environments, a detrimental microbial load may be present both on artworks surface and in the aerosol. Confined environments (museums, archives, deposits, caves, hypogea) are characterised by peculiar structures and different thermo-hygrometric conditions, influencing the development of a wide range of microbial species, able to induce artefact biodeterioration and to release biological particles in the aerosol (spores, cellular debrides, toxins, allergens) potentially dangerous for the human health (visitors/u…

Biodeterioration

2022

The biodeterioration of organic and inorganic materials, as well as polymers, is a complex of alteration processes induced by the growing and metabolic activity of organisms. It can be recognized on monuments, wall paintings, stone, wood, paper, vegetal/animal fibers, and parchment artworks. As defined by Hueck, 1968, biodeterioration is “any undesirable change in the properties of a material caused by the vital activities of organisms”; this definition is accepted as the meaning of the phenomenon. Both macroorganisms (such as animals, plants, and mosses) and microorganisms (such as autotrophic or heterotrophic bacteria, microfungi, cyanobacteria, algae, and lichens) represent the triggers …

Biocide

2022

Biodeterioration represents a revealing problem for the conservation of cultural heritage. It can be identified as a complex interaction within the ecosystem of a microbial community and its substrate and involves physical and chemical alterations resulting from biological and metabolic activity. Designing a diagnostic approach for evaluating the extent of the damage, identifying the biological community, and opting for an efficient methodology aimed at eliminating deteriogens is equally complicated. The correct approach would require understanding the nature of the biodeterioration and implementing methodologies respectful of human health which, however, avoid the indiscriminate killing of…

Decomposition rate and invertebrate colonization of seagrass detritus along a hydrodynamic gradient in a Mediterranean coastal basin: The Stagnone di…

2019

International audience; Seagrass leaf litter decomposition is a key component of marine carbon flow driven by both biotic and abiotic factors, including water movement. In this study, we analyse Posidonia oceanica litter decomposition and invertebrate colonization in three sites with different hydrodynamics in a coastal basin. Litterbags were put on the sea bed along a gradient of distance from the open sea, implying a different level of water exchange. Leaf litter mass loss and carbon and nitrogen concentration were analysed, and density and biomass of benthic invertebrates colonizing litterbags were recorded after 3, 7, 14, 47, 101, 152 and 221 days. Results showed that in the most shelte…

Differential response of benthic microbes and meiofauna to fish-farm disturbance in coastal sediments

2001

Bacterial and meiofaunal abundance and biomass and their response to the disturbance induced by fish-farm biodeposition were investigated from March to October 1997 on a monthly basis at two stations of the Gaeta Gulf (Tyrrhenian Sea, Mediterranean Sea). The biopolymeric fraction of the organic matter was characterized by high concentrations which was similar at both fish-farming-impacted and control stations. Similarly, bacteria accounted for a small fraction of the biopolymeric organic carbon (<1%), while the contribution due to auto-fluorescent cell biomass (i.e. prokaryotic and eukaryotic cells displaying auto-fluorescence) to the total biopolymeric carbon was quantitatively negligible …

Defective dopaminergic control of contractility in colon from hypoxanthine‐guanine phosphoribosyltransferase deficient (HPRT‐) knockout mice

2009

Differential recruitment of Angiotensin II receptors in the modulation of rat colonic contractile activity in experimental inflammation

2015

Objective: Inflammatory Bowel Diseases (IBD), are severe gastrointestinal (GI) disorders, with unknown aetiology, characterized by a chronic intestinal inflammatory reaction, progressively affecting GI functions, as gut motility. During inflammatory events, modifications in the functionality of some enteric modulators could contribute to the pathological changes of GI motor patterns. Angiotensin II (Ang II), the main effector of the renin-angiotensin system (RAS), has been recently reported as novel regulator of GI motility, acting on the specific receptors (AT1R and AT2R) located on the gut wall. Since recent studies have pointed out an involvement of RAS system in GI inflammation, we expl…

Opposite effects of dopamine on the mechanical activity of longitudinal and circular muscles in human colon

2015

Objective: Dopamine (DA) has been proposed to act as a modulator of GI motility, via activation of specific receptors D1- and D2-like receptors widely expressed throughout the length of the gastrointestinal tract, in different animal species. However, little and not clear information are available about DA effect in the human gut. The aims of this study were to elucidate whether dopamine may affect contractility in human colon, the receptor subtypes involved and the possible differences in the function and distribution of dopaminergic receptors between longitudinal and circular muscle. Methods: Mechanical responses to dopamine were examined in vitro as changes in isometric tension in strips…