EGU24-19196, updated on 11 Mar 2024
https://doi.org/10.5194/egusphere-egu24-19196
EGU General Assembly 2024
© Author(s) 2024. This work is distributed under
the Creative Commons Attribution 4.0 License.

Direct and indirect nitrous oxide emissions with application of nitrification inhibitor and plant growth regulator in a calcareous soil 

Rayehe Mirkhani1,2,3, Mehdi Shorafa1, and Gerd Dercon3
Rayehe Mirkhani et al.
  • 1Department of Soil Science Engineering, University of Tehran, Iran (rmirkhani@aeoi.org.ir)
  • 2Nuclear Science and Technology Research Institute (NSTRI), Tehran, Iran (rmirkhani@aeoi.org.ir)
  • 3Soil and Water Management and Crop Nutrition Laboratory, Joint FAO/IAEA Centre of Nuclear Techniques in Food and Agriculture, Seibersdorf, Austria (g.dercon@iaea.org)

Numerous studies have shown that nitrification inhibitors (NIs) are an effective tool to reduce direct N2O emissions. However, some studies have showed the positive effect of NIs on ammonia volatilization and increase the indirect N2O emission from AV. This study aimed to investigate the effect of nitrapyrin (NP) as a NI and gibberellic acid (GA3) as a plant growth regulator (PGR) on direct and indirect N2O emissions. A randomized complete block design including three treatments and five replicates was used in this study. The treatments were: T1 (control treatment-without N fertilizer), T2 (Urea only), and T3 (Urea+NI+GA3). Urea was applied in three split applications. GA3 was foliar sprayed only at stem elongation stage. NP and GA3 were applied at a rate of 0.51% and 0.03% of the applied N (weight/weight), respectively. Ammonia volatilization was measured with semi-static chambers and direct N2O emission was measured with static chambers. Cumulative N2O was 1.45 ± 0.13 and 1.11 ± 0.10 (kg N2O-N ha-1) in urea alone and urea in combination of NP+GA3. The estimated values of indirect N2O-N produced from AV in urea and urea+NP + GA3  were 0.38 and 0.45 kg N ha− 1, respectively. The results showed that the indirect N2O emission from the ammonia path in this type of soil which has high pH cannot be ignored and should be included in the net emission. Also, the results showed that the increase in the indirect emission of N2O from ammonia path induced by NP is negligible.

 

How to cite: Mirkhani, R., Shorafa, M., and Dercon, G.: Direct and indirect nitrous oxide emissions with application of nitrification inhibitor and plant growth regulator in a calcareous soil , EGU General Assembly 2024, Vienna, Austria, 14–19 Apr 2024, EGU24-19196, https://doi.org/10.5194/egusphere-egu24-19196, 2024.

Supplementary materials

Supplementary material file

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supplementary materials version 1 – uploaded on 17 Apr 2024
  • AC1: Comment on EGU24-19196, Rayehe Mirkhani, 17 Apr 2024

    Internet speed in Iran is very low and does not allow me to enter virtual poster hall in Gather. Town.

    Could you please suggest me another alternative way?

  • AC2: Comment on EGU24-19196, Rayehe Mirkhani, 17 Apr 2024

    Internet speed in Iran is very low and does not allow me to enter virtual poster hall in Gather. Town.

    Could you please suggest me another alternative way?

  • AC3: Comment on EGU24-19196, Rayehe Mirkhani, 17 Apr 2024

    Internet speed in Iran is very low and does not allow me to enter virtual poster hall in Gather. Town.

    Could you please suggest me another alternative way?

  • AC4: Comment on EGU24-19196, Rayehe Mirkhani, 17 Apr 2024

    Internet speed in Iran is very low and does not allow me to enter virtual poster hall in Gather. Town.

    Could you please suggest me another alternative way?

  • AC5: Comment on EGU24-19196, Rayehe Mirkhani, 17 Apr 2024

    Internet speed in Iran is very low and does not allow me to enter virtual poster hall in Gather. Town.

    Could you please suggest me another alternative way?

  • AC6: Comment on EGU24-19196, Rayehe Mirkhani, 17 Apr 2024

    Internet speed in Iran is very low and does not allow me to enter virtual poster hall in Gather. Town.

    Could you please suggest me another alternative way?

  • CC1: Comment on EGU24-19196, Melanie Brunn, 17 Apr 2024

    Dear Rayehe, can you briefly describe your research aim und your hypotheses? I could not find them on your poster. Thank you! 

    • AC7: Reply to CC1, Rayehe Mirkhani, 17 Apr 2024

      The main objectives of this study were to investigate the effect of NP in decreasing direct N2O emissions, and to evaluate the mitigation effectiveness of NP on overall N2O emissions (direct N2O emissions and indirect N2O emissions produced from ammonia volatilization pathway). 

  • CC2: Comment on EGU24-19196, Melanie Brunn, 17 Apr 2024

    Dear Rayehe, can you briefly describe your research aim und your hypotheses? I could not find them on your poster. Thank you! 

    • AC8: Reply to CC2, Rayehe Mirkhani, 17 Apr 2024

      Recent studies in calcareous soils have recommended the use of NP with urea based on the reduction of direct N2O emissions.

      Now the question arises that if the indirect N2O emission from the ammonia volatilization pathway, which is the main pathway of N loss in calcareous soils, is added to the data, is it still recommended to use NP?

      • AC14: Reply to AC8, Rayehe Mirkhani, 17 Apr 2024

        Dear Melanie Brunn,

        Thank you for your attention and question.

        Have a nice evening.

  • AC9: Comment on EGU24-19196, Rayehe Mirkhani, 17 Apr 2024

    Dear Magda,

    Ammonia volatilization was measured with semi-static chambers. Indirect N2O emissions were estimated based on EF4 (IPCC). Direct N2O emissions were measured using static chamber method.

    Thank you very much for your attention.

  • AC10: Comment on EGU24-19196, Rayehe Mirkhani, 17 Apr 2024

    Dear Magda,

    Ammonia volatilization was measured with semi-static chambers. Indirect N2O emissions were estimated based on EF4 (IPCC). Direct N2O emissions were measured using static chamber method.

    Thank you very much for your attention.

  • AC11: Comment on EGU24-19196, Rayehe Mirkhani, 17 Apr 2024

    Dear Magda,

    Ammonia volatilization was measured with semi-static chambers. Indirect N2O emissions were estimated based on EF4 (IPCC). Direct N2O emissions were measured using static chamber method.

    Thank you very much for your attention.

  • AC12: Comment on EGU24-19196, Rayehe Mirkhani, 17 Apr 2024

    Dear Magda,

    I can answer the questions through my email:

    rmirkhani@aeoi.org.ir

    Dear all,

    I can answer your questions through my email.

  • AC13: Comment on EGU24-19196, Rayehe Mirkhani, 17 Apr 2024

    Dear Magda,

    I can answer the questions through my email:

    rmirkhani@aeoi.org.ir

    Dear all,

    I can answer your questions through my email.