Effects of climate and management intensity on nitrous oxide emissions in grassland systems across Europe
C.R. Flechard
(1)
,
P. Ambus
(2)
,
U. Skiba
(3)
,
R.M. Rees
(4)
,
A. Hensen
(5)
,
A. van Amstel
(6)
,
A. van del Pol-van Dasselaar
(7)
,
Jean-François Soussana
(8)
,
M. Jones
(9)
,
J. Clifton-Brown
(10)
,
A. Raschi
(11)
,
L. Horvath
(12)
,
A. Neftel
(1)
,
M. Jocher
(1)
,
C. Ammann
(1)
,
J. Leifeld
(1)
,
J. Fuhrer
(1)
,
P. Calanca
(1)
,
E. Thalman
(1)
,
K. Pilegaard
(2)
,
C. Di Marco
(3)
,
C. Campbell
(3)
,
E. Nemitz
(3)
,
K.J. Hargreaves
(3)
,
P.E. Levy
(3)
,
B.C. Ball
(4)
,
S.K. Jones
(4)
,
W.C.M. van de Bulk
(5)
,
T. Groot
(5)
,
M. Blom
(5)
,
R. Domingues
(6)
,
G. Kasper
(7)
,
Vincent Allard
(8)
,
Eric Ceschia
(8)
,
Pierre Cellier
(13)
,
Patricia Laville
(13)
,
Catherine Hénault
(14)
,
Florian Bizouard
(14)
,
M. Abdalla
(9)
,
M. Williams
(10)
,
S. Baronti
(11)
,
F. Berretti
(11)
,
B. Grosz
(15)
1
Air Pollution and Climate Group
2 Risø National Laboratory
3 Edinburgh Research Station
4 Scottish Agricultural College
5 ECN - Energy Research Centre of the Netherlands
6 Environmental Systems Analysis Group
7 Animal Sciences Group
8 URAC - Unité de recherche Agronomie de Clermont
9 Trinity College Dublin
10 IGER - Institute of Grassland and Environmental Research
11 IATAA
12 OMSZ - Hungarian Meteorological Service
13 EGC - Environnement et Grandes Cultures
14 MSE - Microbiologie du Sol et de l'Environnement
15 ELTE - Eötvös Loránd University
2 Risø National Laboratory
3 Edinburgh Research Station
4 Scottish Agricultural College
5 ECN - Energy Research Centre of the Netherlands
6 Environmental Systems Analysis Group
7 Animal Sciences Group
8 URAC - Unité de recherche Agronomie de Clermont
9 Trinity College Dublin
10 IGER - Institute of Grassland and Environmental Research
11 IATAA
12 OMSZ - Hungarian Meteorological Service
13 EGC - Environnement et Grandes Cultures
14 MSE - Microbiologie du Sol et de l'Environnement
15 ELTE - Eötvös Loránd University
C.R. Flechard
- Fonction : Auteur
- PersonId : 740158
- IdHAL : chris-flechard
- ORCID : 0000-0002-5954-9925
- IdRef : 230819842
Jean-François Soussana
- Fonction : Auteur
- PersonId : 1207476
- ORCID : 0000-0002-1932-6583
Vincent Allard
- Fonction : Auteur
- PersonId : 736241
- IdHAL : vincent-allard
- ORCID : 0000-0003-1949-9158
- IdRef : 076103161
Eric Ceschia
- Fonction : Auteur
- PersonId : 736754
- IdHAL : eric-ceschia
- ORCID : 0000-0001-5941-752X
- IdRef : 069976724
Catherine Hénault
- Fonction : Auteur
- PersonId : 1205506
- IdHAL : catherine-henault
- ORCID : 0000-0002-1210-2499
Résumé
Soil/atmosphere exchange fluxes of nitrous oxide were monitored for a 3-year period at 10 grassland sites in eight European countries (Denmark, France, Hungary, Ireland, Italy, The Netherlands, Switzerland and United Kingdom), spanning a wide range of climatic, environmental and soil conditions. Most study sites investigated the influence of one or several management practices on N2O exchange, such as nitrogen fertilization and grazing intensity. Fluxes were measured using non-steady state chambers at most sites, and alternative measurement techniques such as eddy covariance and fast-box using tunable diode laser spectroscopy were implemented at some sites. The overall uncertainty in annual flux estimates derived from chamber measurements may be as high as 50% due to the temporal and spatial variability in fluxes, which warrants the future use of continuous measurements, if possible at the field scale. Annual emission rates were higher from intensive than from extensive grasslands, by a factor 4 if grazed (1.77 versus 0.48 kg N2O-N ha(-1) year(-1)) and by a factor 3 if ungrazed (0.95 versus 0.32 kg N2O-N ha(-1) year(-1)). Annual emission factors for fertilized systems were highly variable, ranging from 0.01% to 3.56%. but the mean emission factor across all sites (0.75%) was substantially lower than the IPCC default value of 1.25%. Emission factors for individual fertilization events increased with soil temperature and were generally higher for water-filled pore space values in the range 60-90%, though precipitation onto dry soils was also shown to lead to high losses of N2O-N from applied fertilizer. An empirical, multiple regression model to predict N2O emission factors on the basis of soil temperature, moisture and rainfall is developed, explaining half of the variability in observed emission factors.