![]() ![]() PhotoSweeper provides 3 modes for reviewing results: “One by One”, ”Face-to-Face" - one or two large photos with an opportunity to mark a photo with just a click, “All in One“ - all groups of duplicates in one list. Mark photos you want to get rid of manually, or use the "Auto Mark" feature to mark duplicates automatically based on the list of rules you can adjust to your needs in the Preferences. Using caches makes the next comparison much faster. You can regroup the results without re-comparing photos by changing matching level with a slider. Cutting-edge technologies and unique algorithms make searching duplicates incredibly fast and gives excellent comparison results. PhotoSweeper was developed as a tool for extremely fast comparison of a huge number of photos. It allow you to compare the contents of two folders with each other or find similar photos to a single image. The app finds duplicate photos, even those edited in external programs such Photoshop, regardless of image size or format.įind duplicates between two groups of photos while ignoring those inside each group. Powerful multi-settings to easily find duplicates, similar photos, series of shots. Add more photos from your Photos, Capture One or Lightroom Classic library via the Media Browser window. Just drag and drop folders from your Mac to allow PhotoSweeper to find all photos inside. You have a mess in your photo collection or just want to free disk space by removing junk photos.You have photos scattered on external hard drives and local disks, in Apple Photos, Lightroom Classic or Capture One libraries.You edit photos with software like Photoshop, Pixelmator etc., and make backups just in case.You take a series of shots of the same scene trying to get the perfect one."I do like this app, it works really well and under the hood is written to utilize the abilities of your Mac." MacTricksAndTips "PhotoSweeper is a simple and efficient utility for organizing photos. "PhotoSweeper packs a powerful punch in de-cluttering any size collection. “Swift, easy to use, thorough, analyzes specific libraries, can search according to various criteria, offers choices in photo handling” TheNextWeb It works with Photos, iPhoto, Aperture, Capture One and Lightroom Classic media libraries as well as photos from your hard drives and external storages. Diffuse hydrothermal fluids often contain organic compounds such as hydrocarbons, lipids, and organic acids.PhotoSweeper is a fast, precise & super efficient tool to eliminate similar or duplicate photos even in huge photo collections. Microorganisms consuming these compounds at hydrothermal sites are so far only known from cultivation-dependent studies. To identify potential heterotrophs without prior cultivation, we combined microbial community analysis with short-term incubations using 13C-labeled acetate at two distinct hydrothermal systems. We followed cell growth and assimilation of 13C into single cells by nanoSIMS combined with fluorescence in situ hybridization (FISH). In 55 ☌-fluids from the Menez Gwen hydrothermal system/Mid-Atlantic Ridge, a novel epsilonproteobacterial group accounted for nearly all assimilation of acetate, representing the first aerobic acetate-consuming member of the Nautiliales. In contrast, Gammaproteobacteria dominated the 13C-acetate assimilation in incubations of 37 ☌-fluids from the back-arc hydrothermal system in the Manus Basin/Papua New Guinea. Here, 16S rRNA gene sequences were mostly related to mesophilic Marinobacter, reflecting the high content of seawater in these fluids. ![]() Our data provide first insights into the heterotrophic microbial community, catalyzing an under-investigated part of microbial carbon cycling at hydrothermal vents.Įpsilonproteobacteria, Gammaproteobacteria, heterotrophy, 16S rRNA gene, nanoSIMS, stable isotopes Introduction The rapid growth of microorganisms upon acetate addition suggests that acetate consumers in diffuse fluids are copiotrophic opportunists, which quickly exploit their energy sources, whenever available under the spatially and temporally highly fluctuating conditions. In submarine hydrothermal systems, inorganic carbon is the primary carbon source (Shively et al., 1998 Nakagawa & Takai, 2008). However, diffuse and end-member hydrothermal fluids can also contain various organic compounds other than methane (Holm & Charlou, 2001 Rogers & Amend, 2006 Konn et al., 2009 Charlou et al., 2010 Lang et al., 2010 Reeves et al., 2014). Organic acids, lipids, and hydrocarbons are formed in the deep subsurface by serpentinization and subsequent Fischer–Tropsch-type processes under elevated temperature and pressure (Shock & Schulte, 1998 Holm & Charlou, 2001). Furthermore, simple organic compounds are formed by thermal decomposition of biomass (McCollom & Seewald, 2007), homoacetogenesis (Drake et al., 2008 Lever et al., 2010) or by the vent-associated macrofauna (Pimenov et al., 2002).
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