2009
DOI: 10.1007/s11104-008-9862-3
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Retention of surface nitrate additions in a temperate old field: implications for atmospheric nitrogen deposition over winter and plant nitrogen availability

Abstract: In many temperate ecosystems, rates of atmospheric nitrogen deposition remain high over winter despite decreased agricultural activity over this season. The extent to which this nitrogen is accessible for plant growth over the following growing season may depend strongly on uptake by plants and soil microorganisms from late fall through early spring, when the majority of aboveground plant tissue has senesced. We added Ca( 15 NO 3 ) 2 (5 atom % 15 N) at a rate of 2 g m −2 of N (corresponding to 100 mg 15 N m −2… Show more

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Cited by 18 publications
(10 citation statements)
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“…However, in some cases spring runoff may result in significant N losses, particularly when large volumes of water are flowing rapidly, where nitrate‐N is abundant, and where N is deposited on soil surfaces, i.e. by atmospheric deposition (Joseph & Henry 2008, 2009). With soil microbes in decline during the transition from winter to spring, the competitive ability of soil microbes for nutrient acquisition may be lower than it would be during the rest of the growing season, when turnover of N by microbes is relatively high despite low MB (Buckeridge & Jefferies 2007).…”
Section: Discussionmentioning
confidence: 99%
“…However, in some cases spring runoff may result in significant N losses, particularly when large volumes of water are flowing rapidly, where nitrate‐N is abundant, and where N is deposited on soil surfaces, i.e. by atmospheric deposition (Joseph & Henry 2008, 2009). With soil microbes in decline during the transition from winter to spring, the competitive ability of soil microbes for nutrient acquisition may be lower than it would be during the rest of the growing season, when turnover of N by microbes is relatively high despite low MB (Buckeridge & Jefferies 2007).…”
Section: Discussionmentioning
confidence: 99%
“…Bai et al 2010;Dickson et al 2014) or winter (e.g. Joseph & Henry 2009;Vourlitis 2012) with only a few additions per year. Thus, results from previous controlled experimental studies might lead to biased estimates of the effects of Nr deposition on the changes of community composition, due to excessively large and infrequent pulses of N added to ecosystems (Smith, Knapp & Collins 2009).…”
Section: Introductionmentioning
confidence: 99%
“…Clein & Schimel 1995), but now these concepts have been extended to temperate regions (Campbell et al 2005). In particular, intense soil freezing can disrupt soil microbial activity (Yanai et al 2004, Bolter et al 2005, and damage plant roots , Weih & Karlsson 2002, leading to increased soil nitrogen leaching (Joseph & Henry 2009), increased soil trace gas losses , decreased plant productivity, and plant mortality (Schaberg et al 2008). Freezing can also affect soil physical processes directly by breaking up aggregates (Oztas & Fayetorbay 2003), and reducing water infiltration (Iwata et al 2010).…”
Section: Introductionmentioning
confidence: 99%