Determining the effects of tillage and nitrogen sources on soil N 2 O emission

Grave, Roberto André; Nicoloso, Rodrigo da Silveira; Cassol, Paulo Cézar; Silva, Márcio Luís Busi da; Mezzari, Melissa P.; Aita, Celso; Wuaden, Camila Rosana

doi:10.1016/j.still.2017.08.011

Cited by 45 publications

(30 citation statements)

References 52 publications

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“…The water-filled pore space in our study was in the optimum range for N 2 O emissions (~80%; Butterbach-Bahl et al, 2013;Maag & Vinther, 1996), and rainfall at the site was above the UK national average which may in part have also contributed to the higher fluxes and highlights the need for more work across a range of climatic conditions. Whilst N 2 O fluxes can vary between years (Drewer, Finch, Lloyd, Baggs, & Skiba, 2012;Jorgensen, Jorgensen, Nielsen, Maag, & Lind, 1997), the trend for a reduction in the second year after establishment seen in this experiment (despite higher second year early season fluxes) is in line with Roth et al (2013) and fits with the generally low fluxes reported for mature Miscanthus plantations in studies by Gauder, Butterbach-Bahl, Graeff-Hönninger, Claupein, and Wiegel (2012) and Drewer et al (2012). This suggests that fluxes in mature crops are likely to be lower than those recorded here for the conversion period, a point also noted in review by Whitaker et al (2018).…”

Section: Discussionsupporting

confidence: 83%

“…However, there are other benefits from no till planting to be considered, such as reduced soil erosion and the retention of soil organic matter (Holland, ; Lal et al, ). Whilst no till cultivation can sometimes increase N 2 O emissions compared to conventional tillage in wet and poorly aerated soils (Grave et al, ; Rochette, ), we found no significant difference between the low impact cultivation methods tested.…”

Section: Discussioncontrasting

confidence: 64%

“…Models predicted around 40% of the variance, values higher than those reported by Roth et al (2013), where only 27% of fluxes could be explained by a large number of factors and Gauder et al (2012) where soil temperature explained less than 10%. N 2 O fluxes are known to be volatile so higher frequency monitoring of N 2 O fluxes (in this study once every 2 weeks) with chambers, or continuous monitoring with the capture of larger ground areas via eddy covariance methods may reveal more about N 2 O drivers (Alves et al, 2012;Jones et al, 2011).…”

Section: Discussioncontrasting

confidence: 54%

“…Reduced tillage methods involving either planting directly into the soil without any form of ploughing (no till) or minimum tillage (cultivation to a shallow depth generally not more than 10 cm) are generally recognized to have the benefits of reduced soil erosion and water runoff and can lead to increases in soil organic matter and soil biological activity (Holland, ; Lal, Reicosky, & Hanson, ). However, the impact of no till cultivation on N 2 O emissions can vary and seems to be linked to soil type and water content (Chatskikh & Olesen, ; Grave et al., ; Rochette, ). The use of a bio‐degradable film mulch has shown improved agricultural and economic performance of Miscanthus by increasing shoot density during establishment in cool temperate climates through increased soil temperature and conservation of moisture (Ashman, Awty‐Carroll, Mos, & Robson, ; Olave et al, ).…”

Section: Introductionmentioning

confidence: 99%

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Soil N₂O emissions with different reduced tillage methods during the establishment of Miscanthus in temperate grassland

et al. 2018

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An increase in renewable energy and the planting of perennial bioenergy crops is expected in order to meet global greenhouse gas (GHG) targets. Nitrous oxide (N 2 O) is a potent greenhouse gas, and this paper addresses a knowledge gap concerning soil N 2 O emissions over the possible “hot spot” of land use conversion from established pasture to the biofuel crop Miscanthus . The work aims to quantify the impacts of this land use change on N 2 O fluxes using three different cultivation methods. Three replicates of four treatments were established: Miscanthus x giganteus (Mxg) planted without tillage; Mxg planted with light tillage; a novel seed‐based Miscanthus hybrid planted with light tillage under bio‐degradable mulch film; and a control of uncultivated established grass pasture with sheep grazing. Soil N 2 O fluxes were recorded every 2 weeks using static chambers starting from preconversion in April 2016 and continuing until the end of October 2017. Monthly soil samples were also taken and analysed for nitrate and ammonium. There was no significant difference in N 2 O emissions between the different cultivation methods. However, in comparison with the uncultivated pasture, N 2 O emissions from the cultivated Miscanthus plots were 550%–819% higher in the first year (April to December 2016) and 469%–485% higher in the second year (January to October 2017). When added to an estimated carbon cost for production over a 10 year crop lifetime (including crop management, harvest, and transportation), the measured N 2 O conversion cost of 4.13 Mg CO 2 ‐eq./ha represents a 44% increase in emission compared to the base case. This paper clearly shows the need to incorporate N 2 O fluxes during Miscanthus establishment into assessments of GHG balances and life cycle analysis and provides vital knowledge needed for this process. This work therefore also helps to support policy decisions regarding the costs and benefits of land use change to Miscanthus .

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Section: Discussionsupporting

confidence: 83%

Section: Discussioncontrasting

confidence: 64%

Section: Discussioncontrasting

confidence: 54%

Section: Introductionmentioning

confidence: 99%

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Soil N₂O emissions with different reduced tillage methods during the establishment of Miscanthus in temperate grassland

et al. 2018

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“…The stepwise regression analysis results indicated that soil WFPS and temperature could explain 82% of the variations in N 2 O fluxes from forestland (Table 4). Soil temperature and moisture are important factors that influence soil N 2 O emissions by affecting microbial activities [8,23,44]. The low soil moisture and temperature during the winter wheat season (Figure 2) generally inhibited microbial activities, resulting in low N 2 O emissions [3,11].…”

Section: Factors Regulating the Increased Soil N 2 O Emissions Inducementioning

confidence: 99%

How Tillage and Fertilization Influence Soil N2O Emissions after Forestland Conversion to Cropland

et al. 2020

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Soil nitrous oxide (N2O) emissions are influenced by land use adjustment and management practices. To meet the increasing socioeconomic development and sustainable demands for food supply, forestland conversion to cropland occurs around the world. However, the effects of forestland conversion to cropland as well as of tillage and fertilization practices on soil N2O emissions are still not well understood, especially in subtropical regions. Therefore, field experiments were carried out to continuously monitor soil N2O emissions after the conversion of forestland to cropland in a subtropical region in Southwest China. One forestland site and four cropland sites were selected: forestland (CK), short-term croplands (tillage with and without fertilization, NC-TF and NC-T), and long-term croplands (tillage with and without fertilization, LC-TF and LC-T). The annual cumulative N2O flux was 0.21 kg N ha−1 yr−1 in forestland. After forestland conversion to cropland, the annual cumulative N2O flux significantly increased by 76‒491%. In the short-term and long-term croplands, tillage with fertilization induced cumulative soil N2O emissions that were 94% and 235% higher than those from tillage without fertilization. Fertilization contributed 63% and 84% to increased N2O emissions in the short-term and long-term croplands, respectively. A stepwise regression analysis showed that soil N2O emissions from croplands were mainly influenced by soil NO3− and NH4+ availability and WFPS (water-filled pore space). Fertilization led to higher soil NH4+ and NO3− concentrations, which thus resulted in larger N2O fluxes. Thus, to reduce soil N2O emissions and promote the sustainable development of the eco-environment, we recommend limiting the conversion of forestland to cropland, and meanwhile intensifying the shift from grain to green or applying advanced agricultural management practices as much as possible.

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Intensification of no‐till agricultural systems: An opportunity for carbon sequestration

Nicoloso

Rice

2021

Soil Science Soc of Amer J

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Core ideas-Here we present a meta-analysis on deep SOC and TN storage and dynamics in tilled and NT soils.-No-till soils stored more SOC and were more conservative of TN than tilled soils.-Differences in SOC stocks between tilled and NT soils increased with temperature.-C sequestration in NT soils increased with intensification of cropping systems.-The use of legumes cover crops sustained TN stocks and promoted soil C sequestration under NT.

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Determining the effects of tillage and nitrogen sources on soil N 2 O emission

Cited by 45 publications

References 52 publications

Soil N₂O emissions with different reduced tillage methods during the establishment of Miscanthus in temperate grassland

Soil N₂O emissions with different reduced tillage methods during the establishment of Miscanthus in temperate grassland

How Tillage and Fertilization Influence Soil N2O Emissions after Forestland Conversion to Cropland

Intensification of no‐till agricultural systems: An opportunity for carbon sequestration

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Determining the effects of tillage and nitrogen sources on soil N 2 O emission

Cited by 45 publications

References 52 publications

Soil N2O emissions with different reduced tillage methods during the establishment of Miscanthus in temperate grassland

Soil N2O emissions with different reduced tillage methods during the establishment of Miscanthus in temperate grassland

How Tillage and Fertilization Influence Soil N2O Emissions after Forestland Conversion to Cropland

Intensification of no‐till agricultural systems: An opportunity for carbon sequestration

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Soil N₂O emissions with different reduced tillage methods during the establishment of Miscanthus in temperate grassland

Soil N₂O emissions with different reduced tillage methods during the establishment of Miscanthus in temperate grassland