The N2O Network

  

Ammonia loss from vegetable systems, Clyde, Victoria, 2014

Data Set Citation

Suter H of The University of Melbourne and Lam R of The University of Melbourne. Ammonia loss from vegetable systems, Clyde, Victoria, 2014.
lam.34.12 (http://www.n2o.net.au/knb/metacat/lam.34.12/html).

Metadata download:
Ecological Metadata Language (EML) File
Data Set Owner(s):
Individual:
Dr. Helen Suter
Organization:
The University of Melbourne
Position:
Research Fellow
Address:
Faculty of Veterinary and Agricultural Sciences,
The University of Melbourne,
Parkville,
VIC 3010
Australia
Phone:
+61 3 8344 0179 (voice)
Phone:
+61 3 8344 5579 (fax)
Email Address:
helencs@unimelb.edu.au
Web Address:
http://www.findanexpert.unimelb.edu.au/researcher/person16560.html
Individual:
Dr. Raymond (Shu Kee) Lam
Organization:
The University of Melbourne
Position:
Research Fellow
Address:
Faculty of Veterinary and Agricultural Sciences,
The University of Melbourne,
VIC 3010
Australia
Phone:
+61 3 9035 9619 (voice)
Email Address:
shukee.lam@unimelb.edu.au
Associated Party
Individual:
Professor Deli Chen
Organization:
The University of Melbourne
Position:
Reader
Address:
Faculty of Veterinary and Agricultural Sciences,
The University of Melbourne,
Parkville,
VIC 3010
Australia
Email Address:
delichen@unimelb.edu.au
Web Address:
http://www.findanexpert.unimelb.edu.au/researcher/person13219.html
Role:
User
Abstract

This field campaign was conducted at Clyde between March and June 2014. The field study was conducted on two adjacent paddocks (~140 m by 220 m). Chicken manure and standard fertiliser practice was used at both sites. The nitrification inhibitor DMPP was applied one day after manure application. Open-path FTIR was used for NH3 measurment. Closed static chambers were used to measure N2O emission. 15N microplots were used for calculating the recovery of the applied N in the plant and the soil.

Keywords
  • NH3
  • Manure
  • Open-path FTIR
  • Nitrification inhibitor
  • Clyde
  • VIC
  • DMPP
  • Celery
Geographic Coverage
Geographic Description:
Twyford Road, Clyde, Victoria
Bounding Coordinates:
West:  
145.194  degrees
East:  
145.195  degrees
North:  
-38.07  degrees
South:  
-38.071  degrees
Temporal Coverage
Begin:
2014-03-17
End:
2014-06-27
Contact(s)
Individual:
Dr. Helen Suter
Organization:
The University of Melbourne
Position:
Research Fellow
Address:
Faculty of Veterinary and Agricultural Sciences,
The University of Melbourne,
Parkville,
VIC 3010
Australia
Phone:
+61 3 8344 0179 (voice)
Phone:
+61 3 8344 5579 (fax)
Email Address:
helencs@unimelb.edu.au
Web Address:
http://www.findanexpert.unimelb.edu.au/researcher/person16560.html
Methods Info
Step 1:
Description:
NH3 measurement by open-path FTIR
Open-path FTIR (one for each paddock) was established near the centre of each site such that the distance between the FTIR and the reflector mirror is ~70 m. Two reflector mirrors were used at the same location within each site, and established at two different heights (~0.5 m and ~ 1.6 m above crop canopy). A scanner attached to the FTIR enabled the beam to pass to the upper and lower mirror heights in sequence and hence enable calculation of the NH3 fluxes using a gradient flux technique. Measurements were conducted at 10-minute intervals for 1 week prior to and 3 weeks after manure application. Site 1, manure only, was considered as the background treatment and site 2 was to determine the impact of DMPP on NH3 loss.
Instrument(s):
  • Open-path FTIR
Step 2:
Description:
Soil mineral N
Soil samples were collected at regular intervals from the vegetable bed (0-15, 15-30 cm layers) and from the corresponding furrow (0-15 cm layer) using a 2.5 cm id corer. Four replicate samples were collected by traversing each quadrat of the paddock from the corner to the centre. Fifteen samples were collected across each transect and composited, with a subsample then taken for analysis. Collected soil was dried at 40°C, sieved (<2mm) and extracted for mineral N with 2M KCl (1:5 ratio). The extract was filtered through a Whatman No. 42 filter paper and analysed for NH4+ and NO3- on the Skalar San++ segmented flow analyser.
Instrument(s):
  • Skalar San++ segmented flow analyser
Step 3:
Description:
N2O snapshots measurement
Closed static chambers (50 x 50 cm x 25 cm high) were placed onto the beds. No measurements were done in the furrows as the measurements at Boneo showed there was minimal loss from this region. Four replicates were used at each site. On each sampling day, gas samples (20 mL) were collected at 0, 30 and 60 minutes after chamber closure using a gas-tight syringe, transferred into pre-evacuated Labco exetainers, transferred back to the University and analysed by gas chromatography.
Instrument(s):
  • Gas chromatograph
Step 4:
Description:
15N recovery
Eight microplot treatments, each replicated 3 times, were established to measure the recovery of applied N in the plant and the soil by using 15NH415NO3, to plots with and without DMPP application.
Instrument(s):
  • Isotope ratio mass spectrometer
Step 5:
Description:
Biomass
Biomass measurement was conducted to assess any productivity gain from DMPP application. At harvest, three plants from each of the 4 quadrats at each site were randomly selected and cut at ground level. The plants were dried at 60°C until constant weight.
Instrument(s):
  • Oven
Project Info
Title:
NANORP
Personnel:
Individual:
Dr. Helen Suter
Organization:
The University of Melbourne
Position:
Research Fellow
Address:
Faculty of Veterinary and Agricultural Sciences,
The University of Melbourne,
Parkville,
VIC 3010
Australia
Phone:
+61 3 8344 0179 (voice)
Phone:
+61 3 8344 5579 (fax)
Email Address:
helencs@unimelb.edu.au
Web Address:
http://www.findanexpert.unimelb.edu.au/researcher/person16560.html
Role:
Project leader
Funding:

DAFF

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