SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2012649364> ?p ?o ?g. }

Showing items 1 to 100 of ±148 with 100 items per page.

W2012649364 endingPage "158" @default.
W2012649364 startingPage "151" @default.
W2012649364 abstract "Heterotrophic soil microbes regulate the rate-limiting step in soil organic matter decomposition via the production of hydrolytic and oxidative extracellular enzymes. The influence of climate change on heterotrophic microbial activity remains poorly understood, not least in terms of the differential sensitivity of microbial functional groups to warming and altered precipitation regimes. Cord-forming basidiomycete fungi dominate primary decomposition in temperate woodlands. We investigate the interactive influence of elevated temperature (3 °C), wetting and drying (6–9% increase and 5–6% decrease of soil moisture, respectively) on saprotrophic basidiomycete-mediated beech (Fagus sylvatica) wood decomposition, as well as on hydrolytic (β-glucosidase, cellobiohydrolase, β-xylosidase, N-acetyl-glucosaminidase, acid phosphatase and leucine aminopeptidase) and oxidative (peroxidase and phenoloxidase) enzyme potential activities, in woodland soil mesocosms. While drying decreased beech wood decomposition rate, warming resulted in an increased rate and compensated for the negative effect of drying. Moisture regulated the extracellular enzyme pool; all enzymes except leucine aminopeptidase had significantly greater potential activity under wetting than drying. Again, elevated temperature consistently compensated for the negative effect of drying, but did not increase extracellular enzyme potential activity, alone or in combination with wetting. This reflects microbial production (fungal biomass was not increased under these conditions) rather than in situ effects on enzyme kinetics. N-acetyl-glucosaminidase and acid phosphatase displayed differential responses to temperature and moisture in systems dominated by different fungi. Decomposer communities appear to be more functionally resilient to the combined effects of elevated temperature and altered moisture than is suggested based on the manipulation of single abiotic variables." @default.
W2012649364 created "2016-06-24" @default.
W2012649364 creator A5006455766 @default.
W2012649364 creator A5036616645 @default.
W2012649364 creator A5042469890 @default.
W2012649364 creator A5061838644 @default.
W2012649364 date "2014-03-01" @default.
W2012649364 modified "2023-10-18" @default.
W2012649364 title "Interactive effects of temperature and soil moisture on fungal-mediated wood decomposition and extracellular enzyme activity" @default.
W2012649364 cites W1501061422 @default.
W2012649364 cites W1846006517 @default.
W2012649364 cites W1941621599 @default.
W2012649364 cites W1965842972 @default.
W2012649364 cites W1970678715 @default.
W2012649364 cites W1972995982 @default.
W2012649364 cites W1976479763 @default.
W2012649364 cites W1985171687 @default.
W2012649364 cites W2000728556 @default.
W2012649364 cites W2002491388 @default.
W2012649364 cites W2011775519 @default.
W2012649364 cites W2013403933 @default.
W2012649364 cites W2018243204 @default.
W2012649364 cites W2018687872 @default.
W2012649364 cites W2018841491 @default.
W2012649364 cites W2019706045 @default.
W2012649364 cites W2033378871 @default.
W2012649364 cites W2038431903 @default.
W2012649364 cites W2045266140 @default.
W2012649364 cites W2046436145 @default.
W2012649364 cites W2049207331 @default.
W2012649364 cites W2058266937 @default.
W2012649364 cites W2066421728 @default.
W2012649364 cites W2067718532 @default.
W2012649364 cites W2073302317 @default.
W2012649364 cites W2077918407 @default.
W2012649364 cites W2079069606 @default.
W2012649364 cites W2083857556 @default.
W2012649364 cites W2091089581 @default.
W2012649364 cites W2092310574 @default.
W2012649364 cites W2092344749 @default.
W2012649364 cites W2105967768 @default.
W2012649364 cites W2105989018 @default.
W2012649364 cites W2106320450 @default.
W2012649364 cites W2109521731 @default.
W2012649364 cites W2109937711 @default.
W2012649364 cites W2112828989 @default.
W2012649364 cites W2113942162 @default.
W2012649364 cites W2118463604 @default.
W2012649364 cites W2120721798 @default.
W2012649364 cites W2120900106 @default.
W2012649364 cites W2125724687 @default.
W2012649364 cites W2128837721 @default.
W2012649364 cites W2128939478 @default.
W2012649364 cites W2136444203 @default.
W2012649364 cites W2141334640 @default.
W2012649364 cites W2142880207 @default.
W2012649364 cites W2142888772 @default.
W2012649364 cites W2144138018 @default.
W2012649364 cites W2145081036 @default.
W2012649364 cites W2146658949 @default.
W2012649364 cites W2150759117 @default.
W2012649364 cites W2152756549 @default.
W2012649364 cites W2158183161 @default.
W2012649364 cites W2162739681 @default.
W2012649364 cites W2167450434 @default.
W2012649364 cites W2254100412 @default.
W2012649364 cites W2808995432 @default.
W2012649364 cites W4211195076 @default.
W2012649364 cites W4243164695 @default.
W2012649364 doi "https://doi.org/10.1016/j.soilbio.2013.12.017" @default.
W2012649364 hasPublicationYear "2014" @default.
W2012649364 type Work @default.
W2012649364 sameAs 2012649364 @default.
W2012649364 citedByCount "125" @default.
W2012649364 countsByYear W20126493642014 @default.
W2012649364 countsByYear W20126493642015 @default.
W2012649364 countsByYear W20126493642016 @default.
W2012649364 countsByYear W20126493642017 @default.
W2012649364 countsByYear W20126493642018 @default.
W2012649364 countsByYear W20126493642019 @default.
W2012649364 countsByYear W20126493642020 @default.
W2012649364 countsByYear W20126493642021 @default.
W2012649364 countsByYear W20126493642022 @default.
W2012649364 countsByYear W20126493642023 @default.
W2012649364 crossrefType "journal-article" @default.
W2012649364 hasAuthorship W2012649364A5006455766 @default.
W2012649364 hasAuthorship W2012649364A5036616645 @default.
W2012649364 hasAuthorship W2012649364A5042469890 @default.
W2012649364 hasAuthorship W2012649364A5061838644 @default.
W2012649364 hasConcept C104170005 @default.
W2012649364 hasConcept C107872376 @default.
W2012649364 hasConcept C110872660 @default.
W2012649364 hasConcept C127413603 @default.
W2012649364 hasConcept C181199279 @default.
W2012649364 hasConcept C185592680 @default.
W2012649364 hasConcept C187320778 @default.
W2012649364 hasConcept C18903297 @default.
W2012649364 hasConcept C24939127 @default.