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W2005472203 endingPage "407" @default.
W2005472203 startingPage "407" @default.
W2005472203 abstract "The long-term (16-year) effect of stubble management (i.e. retained or burnt) on the size of the microbial community (microbial biomass-C and -N), microbial community structure (PLFA), and function (CO2-C evolution, gross N transformation rates, enzymatic activity, and community level physiological profiles) was investigated on 4 occasions during a single wheat-growing season using soil collected from the low-rainfall (<250 mm) region of Western Australia. Significant differences (P < 0.001) in microbial community structure and function were determined for different sampling times by phospholipid fatty acid (PLFA) analyses and community level physiological profiles (CLPP). However, neither PLFA nor CLPP analyses identified differences between stubble treatments. In contrast to total soil organic matter-C, for which no treatment differences were evident, microbial biomass-C was 34% and CO2-C evolution 61% greater in stubble-retained treatments than in burnt-stubble treatments in the 0–0.05 m soil layer. Seasonal increases in microbial biomass-C (P < 0.001) were on average twice as large and CO2-C evolution (P < 0.001) nearly 4 times greater in September during crop flowering compared with other sampling times. In contrast, microbial biomass-N remained constant throughout the entire sampling period. Stubble-retained treatments also demonstrated significantly greater (P < 0.05) levels of arginine ammonification, acid phosphatase and β-glucosidase enzyme activity on average compared with burnt-stubble treatments. However, the effect (P = 0.05) of stubble treatment on gross N mineralisation, nitrification, or immobilisation rates was seasonally dependent with burnt-stubble treatments demonstrating lower gross N mineralisation rates than retained-stubble treatments in November. Gross N mineralisation was lower (37–83% on average) than potential gross nitrification rates (estimated in the presence of excess NH4+) measured from May to September. The rate of potential gross nitrification was observed to decline significantly (P = 0.06) in November and as a result, more closely matched gross N mineralisation rates. Potential gross nitrification rates were also up to 6 times greater than microbial immobilisation of NH4+, indicating that this would be the primary consumptive process in the presence of NH4+. Whilst potential nitrification rates in the presence of excess NH4+ were high, low soil NO3– concentrations indicate that plant/microbial demand for NO3– and NH4+ exceeded the supply capacity. For example, actual gross nitrification rates (determined in the presence of 15N-labelled NO3-) were only greater than gross N mineralisation in May, indicating N supply constrained nitrification at other sampling times. Findings illustrate that increased wheat yields of 31% in this study were associated with the retention of stubble. Further they demonstrate that changes in stubble management significantly influenced the mass and activity of microorganisms (and in some cases N cycling), whilst having little influence on community diversity." @default.
W2005472203 created "2016-06-24" @default.
W2005472203 creator A5081241579 @default.
W2005472203 creator A5086548467 @default.
W2005472203 date "2006-01-01" @default.
W2005472203 modified "2023-09-26" @default.
W2005472203 title "Seasonal changes in microbial function and diversity associated with stubble retention versus burning" @default.
W2005472203 cites W165154121 @default.
W2005472203 cites W1964589705 @default.
W2005472203 cites W1966985099 @default.
W2005472203 cites W1968677831 @default.
W2005472203 cites W1971981820 @default.
W2005472203 cites W1974370159 @default.
W2005472203 cites W1976991275 @default.
W2005472203 cites W1980760148 @default.
W2005472203 cites W1981630225 @default.
W2005472203 cites W1985445982 @default.
W2005472203 cites W1985929477 @default.
W2005472203 cites W1992609538 @default.
W2005472203 cites W1996963203 @default.
W2005472203 cites W1997029703 @default.
W2005472203 cites W2000211399 @default.
W2005472203 cites W2000253966 @default.
W2005472203 cites W2004402078 @default.
W2005472203 cites W2004907190 @default.
W2005472203 cites W2006443304 @default.
W2005472203 cites W2006875178 @default.
W2005472203 cites W2011931055 @default.
W2005472203 cites W2014905700 @default.
W2005472203 cites W2016795939 @default.
W2005472203 cites W2017023231 @default.
W2005472203 cites W2022193203 @default.
W2005472203 cites W2022712694 @default.
W2005472203 cites W2026400003 @default.
W2005472203 cites W2029528648 @default.
W2005472203 cites W2032876392 @default.
W2005472203 cites W2033923374 @default.
W2005472203 cites W2036696903 @default.
W2005472203 cites W2040408681 @default.
W2005472203 cites W2040417533 @default.
W2005472203 cites W2041230234 @default.
W2005472203 cites W2041363471 @default.
W2005472203 cites W2045078541 @default.
W2005472203 cites W2055100360 @default.
W2005472203 cites W2056973421 @default.
W2005472203 cites W2062314519 @default.
W2005472203 cites W2062366736 @default.
W2005472203 cites W2064335136 @default.
W2005472203 cites W2064874930 @default.
W2005472203 cites W2068412297 @default.
W2005472203 cites W2069710614 @default.
W2005472203 cites W2070217881 @default.
W2005472203 cites W2072084003 @default.
W2005472203 cites W2075680927 @default.
W2005472203 cites W2075718177 @default.
W2005472203 cites W2076942817 @default.
W2005472203 cites W2078067297 @default.
W2005472203 cites W207960607 @default.
W2005472203 cites W2080396869 @default.
W2005472203 cites W2081337068 @default.
W2005472203 cites W2083812499 @default.
W2005472203 cites W2086846863 @default.
W2005472203 cites W2088253220 @default.
W2005472203 cites W2089906286 @default.
W2005472203 cites W2089995046 @default.
W2005472203 cites W2095589143 @default.
W2005472203 cites W2099285620 @default.
W2005472203 cites W2114547030 @default.
W2005472203 cites W2116203900 @default.
W2005472203 cites W2125103457 @default.
W2005472203 cites W2133013296 @default.
W2005472203 cites W2133280762 @default.
W2005472203 cites W2141559338 @default.
W2005472203 cites W2143303750 @default.
W2005472203 cites W2143720575 @default.
W2005472203 cites W2150788527 @default.
W2005472203 cites W2151045409 @default.
W2005472203 cites W2168092362 @default.
W2005472203 cites W2171656652 @default.
W2005472203 cites W2172776214 @default.
W2005472203 cites W2182826591 @default.
W2005472203 cites W2288414319 @default.
W2005472203 cites W2498074463 @default.
W2005472203 cites W4245369636 @default.
W2005472203 cites W4246089636 @default.
W2005472203 cites W4299483701 @default.
W2005472203 cites W90475419 @default.
W2005472203 doi "https://doi.org/10.1071/sr05183" @default.
W2005472203 hasPublicationYear "2006" @default.
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