Impacts of nitrogen application rates on the activity and diversity of denitrifying bacteria in the Broadbalk Wheat Experiment

Clark, Ian M.; Buchkina, Natalya; Jhurreea, Deveraj; Goulding, Keith; Hirsch, P. R.

doi:10.1098/rstb.2011.0314

Cited by 92 publications

(61 citation statements)

References 38 publications

(74 reference statements)

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“…Nitrate reduction by denitrification is of great importance because it can lead to considerable nitrogen losses in agriculture and emissions of greenhouse gases (Cheneby et al, 2009). In general, activity of this process increases with soil temperature and moisture and is strongly dependent on soil physiochemical properties especially on soil organic carbon content (Szukics et al, 2010;Clark et al, 2012;Miller et al, 2012). According to the findings of Cheneby et al (2009), nitrate reduction activity was stimulated by combined organic and mineral fertilization but not by organic fertilization alone.…”

Section: Resultsmentioning

confidence: 98%

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Nitrogen cycle bacteria in soils of organically and conventionally managed crop rotations

Järvan

Edesi

2015

Zemdirbyste-Agriculture

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The aim of the current research was to investigate the influence of organic and conventional farming on certain bacteria (nitrifiers, denitrifiers and azotobacteria) involved in the soil nitrogen cycle. During 2007-2013, field experiments were performed in Central-Estonia (58º33′ N, 25º34′ E) on a sandy loam Albeluvisol (AB) in a five-field crop rotation (winter rye → potato → oats → barley with undersowing → red clover). The following treatments were carried out: organic without manure, organic with cattle manure, and conventional where manure, mineral fertilizers and pesticides were used. In the treatments, solid cattle manure (60 t ha -1 ) was applied for potato. In 2007-2013, soil samples for microbiological tests were taken from the two fields of the crop rotation from 0-20 cm layer. All soil samples were examined for the total number of bacteria, azotobacteria, denitrifying and nitrifying bacteria using the plate-count method. In the organic farming, the application of cattle manure significantly (P < 0.05) increased the total bacteria communities. Also the nitrifying bacteria responded greatly to the soil nutritional status. Their abundance in the organic without manure treatment was significantly (P < 0.05) lower than that in the other treatments. There were no significant (P < 0.05) differences in the counts of denitrifying bacteria between the treatments. The repeated application of fungicides and insecticides for potato protection decreased the number of azotobacteria as direct effect by 2.7 times and had a harmful aftereffect on these sensitive bacteria also in succeeding years.

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Section: Resultsmentioning

confidence: 98%

“…Denitrifying bacteria are more numerous than any other functional groups involved in the nitrogen cycle (Clark et al, 2012). Nitrate reduction by denitrification is of great importance because it can lead to considerable nitrogen losses in agriculture and emissions of greenhouse gases (Cheneby et al, 2009).…”

Section: Resultsmentioning

confidence: 99%

Nitrogen cycle bacteria in soils of organically and conventionally managed crop rotations

Järvan

Edesi

2015

Zemdirbyste-Agriculture

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“…Overall, a good agreement was observed between modelled and measured yield, except for the plot with no nutrient input (control plot). In spite of no fertilizer application, a yield increase in the control plot has been observed (Clark et al 2012;Powlson et al 2014), which, it has been proposed, could be due to atmospheric N deposition of around 35-45 kg N ha -1 a -1 . Including N deposition in DDC tends to reduce the gap between modelled and measured yield, but could not explain the entire gap between modelled results and observations.…”

Section: Modelled Soc and Yieldmentioning

confidence: 96%

Simulating soil carbon sequestration from long term fertilizer and manure additions under continuous wheat using the DailyDayCent model

Begum

Yeluripati

Glendining

et al. 2017

Nutr Cycl Agroecosyst

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The widely used ecosystem model DailyDayCent (DDC) was used to predict soil organic carbon (SOC) sequestration and yield under different fertilization treatments on a wheat (Triticum aestivum) monoculture on Broadbalk field, Rothamsted, UK. Over a period of about 170 years, the management practices on the test site, which is separated into plots with different treatments of fertilizer and manure application, are well documented. Four treatments consisting of control (no fertilizer), mineral nitrogen (N) fertilizer (MN), farm yard manure (FYM) and a combination of both (FYMN) have been selected for the study. DDC simulated the greatest increases in SOC (three times higher compared to simulation of the control plot) in the FYM plot. Overall a good agreement between modelled and measured yield was obtained (except in control plots). As observed in the experimental plots, the highest yield predicted by the model is with FYMN plot (more than three times higher relative to the control plot). A sensitivity test for the MN and FYM plots demonstrated that predicted SOC was relatively insensitive (1%) to bulk density, pH and field capacity. Higher sensitivity (4-7%) of predicted SOC changes were observed by changes in external C input. An increase of temperature by 1°C or precipitation by 10% decreased predicted SOC by 2-4% and vice versa, and simulated a 1-4% variability in yield. DDC is a useful tool for simulating SOC in the long term plots, with a good fit to data, and is useful for examining alternate hypotheses of yield and SOC responses.

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“…Due to practical limitations, not all parameters could be measured each year and we used our previous experience (Hirsch et al 2009;Clark et al 2012) to plan sampling to cover the most relevant periods of change. A randomised sampling grid was designed at the outset of the conversion to provide 160 sampling areas of 0.25 m 2 to ensure that no part of each plot was sampled more than once and different assays did not interfere.…”

Section: Soil Samplingmentioning

confidence: 99%

“…DNA samples and PCR results failing to meet our quality criteria were discarded: a full description of the primers, PCR conditions and quality controls has been described previously (Cardenas et al 2013;Clark et al 2012) and is provided in the Supplementary Information. We did not quantify archaeal 16S rRNA genes: previous results indicated that they were 100-times less frequent than bacteria in our soils and the vast majority were ammonia oxidizers, so would be enumerated by the primers for archaeal amoA (Zhalnina et al 2013).…”

Section: Soil Samplingmentioning

confidence: 99%

Soil resilience and recovery: rapid community responses to management changes

et al. 2016

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Impacts of nitrogen application rates on the activity and diversity of denitrifying bacteria in the Broadbalk Wheat Experiment

Cited by 92 publications

References 38 publications

Nitrogen cycle bacteria in soils of organically and conventionally managed crop rotations

Nitrogen cycle bacteria in soils of organically and conventionally managed crop rotations

Simulating soil carbon sequestration from long term fertilizer and manure additions under continuous wheat using the DailyDayCent model

Soil resilience and recovery: rapid community responses to management changes

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