Wolves v QPR line-ups: Mackie and Sandro start, youngster makes debut, Wolves trio out

admin xdabuo , , , , , , , , ,

first_imgEmbed from Getty ImagesJamie Mackie is back in the starting line-up for QPR’s match at Wolves, where Irish youngster Ryan Manning makes his senior debut.Mackie, fit again after injury, makes his first start of the season, while midfielder Manning, 20, is joined in the line-up by Sandro.There is also a starting place for Idrissa Sylla, with Conor Washington dropping to the bench.Joel Lynch has been passed fit following a rib injury and replaces the suspended Nedum Onuoha – both in the team and as captain.But Jordan Cousins is out with a hamstring problem once more and Tjaronn Chery and Sebastian Polter are again out.There is a place on the bench for teenage forward Eberechi Eze, who was signed from Millwall in the summer.Wolves, meanwhile, are still without the injured Michal Zyro, Jordan Graham and Mike Williamson.Wolves: Ikeme, Coady, Batth, Stearman, Doherty, Edwards, Price, Costa, Enobakhare, Cavaleiro, Dicko.Subs: Burgoyne, Iorfa, Hause, Saville, Ronan, Mason, Bodvarsson.QPR: Smithies, Perch, Hall, Lynch, Bidwell, Wszolek, Sandro, Manning, Ngbakoto, Mackie, Sylla.Subs: Ingram, Borysiuk, Washington, El Khayati, Shodipo, Hamalainen, Eze.   Ads by Revcontent Trending Articles Urologists: Men, Forget the Blue Pill! This “Destroys” ED x ‘Genius Pill’ Used By Rich Americans Now Available In Netherlands! x Men, You Don’t Need the Blue Pill if You Do This x One Cup of This (Before Bed) Burns Belly Fat Like Crazy! x What She Did to Lose Weight Stuns Doctors: Do This Daily Before Bed! x Drink This Before Bed, Watch Your Body Fat Melt Like Crazy x Follow West London Sport on TwitterFind us on Facebooklast_img

You May Also Like..

Ozone measurements by zenith-sky spectrometers: An evaluation of errors in air-mass factors calculated by radiative transfer models

first_imgCalculations of air-mass factors (AMFs) for ground-based zenith-sky UV-visible spectrometers are presented and discussed. Causes and size of errors in AMFs of ozone in the visible are evaluated. Errors can be caused by approximations in the calculation (intensity-weight approximation, ignoring the finite field of view of the instrument); by approximation in the scheme of the calculation (single scattering, ignoring refraction); or by variable geophysical parameters (vertical profile of constituents). These relative errors in AMF cause identical relative errors in vertical columns of ozone deduced from measurements by zenith-sky spectrometers. The mean of the relative errors of ozone AMFs due to using one set of AMFs for all seasons and locations is ±2.4% when averaged over the commonly used range of solar zenith angles.last_img

Upper temperature limits of tropical marine ectotherms: global warming implications

first_imgAnimal physiology, ecology and evolution are affected by temperature and it is expected that community structure will be strongly influenced by global warming. This is particularly relevant in the tropics, where organisms are already living close to their upper temperature limits and hence are highly vulnerable to rising temperature. Here we present data on upper temperature limits of 34 tropical marine ectotherm species from seven phyla living in intertidal and subtidal habitats. Short term thermal tolerances and vertical distributions were correlated, i.e., upper shore animals have higher thermal tolerance than lower shore and subtidal animals; however, animals, despite their respective tidal height, were susceptible to the same temperature in the long term. When temperatures were raised by 1°C hour−1, the upper lethal temperature range of intertidal ectotherms was 41–52°C, but this range was narrower and reduced to 37–41°C in subtidal animals. The rate of temperature change, however, affected intertidal and subtidal animals differently. In chronic heating experiments when temperature was raised weekly or monthly instead of every hour, upper temperature limits of subtidal species decreased from 40°C to 35.4°C, while the decrease was more than 10°C in high shore organisms. Hence in the long term, activity and survival of tropical marine organisms could be compromised just 2–3°C above present seawater temperatures. Differences between animals from environments that experience different levels of temperature variability suggest that the physiological mechanisms underlying thermal sensitivity may vary at different rates of warming.last_img

Quantarctica, an integrated mapping environment for Antarctica, the Southern Ocean, and sub-Antarctic islands

first_imgQuantarctica (https://www.npolar.no/quantarctica) is a geospatial data package, analysis environment, and visualization platform for the Antarctic Continent, Southern Ocean (>40oS), and sub-Antarctic islands. Quantarctica works with the free, cross-platform Geographical Information System (GIS) software QGIS and can run without an Internet connection, making it a viable tool for fieldwork in remote areas. The data package includes basemaps, satellite imagery, terrain models, and scientific data in nine disciplines, including physical and biological sciences, environmental management, and social science. To provide a clear and responsive user experience, cartography and rendering settings are carefully prepared using colour sets that work well for typical data combinations and with consideration of users with common colour vision deficiencies. Metadata included in each dataset provides brief abstracts for non-specialists and references to the original data sources. Thus, Quantarctica provides an integrated environment to view and analyse multiple Antarctic datasets together conveniently and with a low entry barrier.last_img

Leave a Reply

Your email address will not be published. Required fields are marked *