Cecile A M de Klein
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Explore the profile of Cecile A M de Klein including associated specialties, affiliations and a list of published articles.
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20
Citations
63
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Recent Articles
1.
Hutchings N, Petersen S, Richards K, Pacholski A, Fuss R, Abalos D, et al.
Glob Chang Biol
. 2024 Dec;
30(12):e17618.
PMID: 39641287
Urease and nitrification inhibitors can reduce ammonia and greenhouse gas emissions from fertilizers and manure but their effectiveness depends on the conditions under which they are used. Consequently, it is...
2.
van der Weerden T, Noble A, de Klein C, Hutchings N, Thorman R, Alfaro M, et al.
J Environ Qual
. 2021 Jun;
50(5):1005-1023.
PMID: 34192353
Manure application to land and deposition of urine and dung by grazing animals are major sources of ammonia (NH ) and nitrous oxide (N O) emissions. Using data on NH...
3.
Adhikari K, Chibuike G, Saggar S, Simon P, Luo J, de Klein C
Sci Total Environ
. 2021 Jun;
791:148099.
PMID: 34139500
Livestock urine patches are the main source of nitrous oxide (NO) emissions in pastoral system, and nitrification inhibitors (NIs) have been widely investigated as a NO mitigation strategy. This study...
4.
Beltran I, van der Weerden T, Alfaro M, Amon B, de Klein C, Grace P, et al.
J Environ Qual
. 2020 Dec;
50(2):513-527.
PMID: 33331653
Nitrous oxide (N O), ammonia (NH ), and methane (CH ) emissions from the manure management chain of livestock production systems are important contributors to greenhouse gases (GHGs) and NH...
5.
Venterea R, Petersen S, de Klein C, Pedersen A, Noble A, Rees R, et al.
J Environ Qual
. 2020 Oct;
49(5):1141-1155.
PMID: 33016463
A critical step in determining soil-to-atmosphere nitrous oxide (N O) exchange using non-steady-state chambers is converting collected gas concentration versus time data to flux values using a flux calculation (FC)...
6.
Charteris A, Chadwick D, Thorman R, Vallejo A, de Klein C, Rochette P, et al.
J Environ Qual
. 2020 Oct;
49(5):1092-1109.
PMID: 33016455
Adequately estimating soil nitrous oxide (N O) emissions using static chambers is challenging due to the high spatial variability and episodic nature of these fluxes. We discuss how to design...
7.
de Klein C, Alfaro M, Giltrap D, Topp C, Simon P, Noble A, et al.
J Environ Qual
. 2020 Oct;
49(5):1156-1167.
PMID: 33016448
Static chambers are often used for measuring nitrous oxide (N O) fluxes from soils, but statistical analysis of chamber data is challenged by the inherently heterogeneous nature of N O...
8.
de Klein C, Harvey M, Clough T, Petersen S, Chadwick D, Venterea R
J Environ Qual
. 2020 Oct;
49(5):1073-1080.
PMID: 33016437
Non-steady-state (NSS) chamber techniques have been used for decades to measure nitrous oxide (N O) fluxes from agricultural soils. These techniques are widely used because they are relatively inexpensive, easy...
9.
Simon P, Dieckow J, Zanatta J, Ramalho B, Ribeiro R, van der Weerden T, et al.
Sci Total Environ
. 2020 Apr;
720:137692.
PMID: 32325603
Nitrous oxide (NO) emissions from pasture-based livestock systems represent 34% of Brazil's agricultural greenhouse gas emissions. The forage species Brachiaria humidicola is known for its biological nitrification inhibition (BNI) capacity...
10.
Knook J, Dynes R, Pinxterhuis I, de Klein C, Eory V, Brander M, et al.
Environ Manage
. 2019 Dec;
65(2):243-256.
PMID: 31858172
Although the link between agriculture and diffuse water pollution has been understood for decades, there is still a need to implement effective measures to address this issue. In countries with...