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Shu Kee Lam
Shu Kee Lam
School of Agriculture and Food, The University of Melbourne
Verified email at unimelb.edu.au
Title
Cited by
Cited by
Year
Policy distortions, farm size, and the overuse of agricultural chemicals in China
Y Wu, X Xi, X Tang, D Luo, B Gu, SK Lam, PM Vitousek, D Chen
Proceedings of the National Academy of Sciences 115 (27), 7010-7015, 2018
6132018
Ammonia volatilization from synthetic fertilizers and its mitigation strategies: A global synthesis
B Pan, SK Lam, A Mosier, Y Luo, D Chen
Agriculture, Ecosystems & Environment 232, 283-289, 2016
5982016
Can knowledge‐based N management produce more staple grain with lower greenhouse gas emission and reactive nitrogen pollution? A meta‐analysis
L Xia, SK Lam, D Chen, J Wang, Q Tang, X Yan
Global change biology 23 (5), 1917-1925, 2017
4262017
How does recycling of livestock manure in agroecosystems affect crop productivity, reactive nitrogen losses, and soil carbon balance?
L Xia, SK Lam, X Yan, D Chen
Environmental Science & Technology 51 (13), 7450-7457, 2017
3962017
Trade‐offs between soil carbon sequestration and reactive nitrogen losses under straw return in global agroecosystems
L Xia, SK Lam, B Wolf, R Kiese, D Chen, K Butterbach‐Bahl
Global Change Biology 24 (12), 5919-5932, 2018
3592018
Effects of Elevated CO2 on Nutritional Quality of Vegetables: A Review
J Dong, N Gruda, SK Lam, X Li, Z Duan
Frontiers in plant science 9, 924, 2018
2972018
Using nitrification inhibitors to mitigate agricultural N2O emission: a double‐edged sword?
SK Lam, H Suter, AR Mosier, D Chen
Global Change Biology 23 (2), 485-489, 2017
2782017
Cost-effective mitigation of nitrogen pollution from global croplands
B Gu, X Zhang, SK Lam, Y Yu, HJM Van Grinsven, S Zhang, X Wang, ...
Nature 613 (7942), 77-84, 2023
2462023
Societal benefits of halving agricultural ammonia emissions in China far exceed the abatement costs
X Zhang, B Gu, H van Grinsven, SK Lam, X Liang, M Bai, D Chen
Nature Communications 11 (1), 4357, 2020
1812020
The potential for carbon sequestration in Australian agricultural soils is technically and economically limited
SK Lam, D Chen, AR Mosier, R Roush
Scientific reports 3 (1), 2179, 2013
1402013
Nitrogen dynamics in grain crop and legume pasture systems under elevated atmospheric carbon dioxide concentration: A meta‐analysis
SK Lam, D Chen, R Norton, R Armstrong, AR Mosier
Global Change Biology 18 (9), 2853-2859, 2012
1312012
Ensuring planetary survival: the centrality of organic carbon in balancing the multifunctional nature of soils
PM Kopittke, AA Berhe, Y Carrillo, TR Cavagnaro, D Chen, QL Chen, ...
Critical Reviews in Environmental Science and Technology 52 (23), 4308-4324, 2022
1242022
The effect of temperature and moisture on the source of N2O and contributions from ammonia oxidizers in an agricultural soil
R Liu, HL Hayden, H Suter, H Hu, SK Lam, J He, PM Mele, D Chen
Biology and Fertility of Soils 53, 141-152, 2017
1012017
Changes in grain protein and amino acids composition of wheat and rice under short‐term increased [CO2] and temperature of canopy air in a paddy from East China
J Wang, T Hasegawa, L Li, SK Lam, X Zhang, X Liu, G Pan
New Phytologist 222 (2), 726-734, 2019
872019
Salinity as a predominant factor modulating the distribution patterns of antibiotic resistance genes in ocean and river beach soils
YJ Zhang, HW Hu, H Yan, JT Wang, SK Lam, QL Chen, D Chen, JZ He
Science of the total environment 668, 193-203, 2019
812019
A review of precision fertilization research
C Chen, J Pan, SK Lam
Environmental Earth Sciences 71, 4073-4080, 2014
742014
Simultaneous quantification of N2, NH3 and N2O emissions from a flooded paddy field under different N fertilization regimes
L Xia, X Li, Q Ma, SK Lam, B Wolf, R Kiese, K Butterbach‐Bahl, D Chen, ...
Global Change Biology 26 (4), 2292-2303, 2020
732020
A credit system to solve agricultural nitrogen pollution
B Gu, HJM van Grinsven, SK Lam, O Oenema, MA Sutton, A Mosier, ...
The Innovation 2 (1), 2021
712021
Beef and coal are key drivers of Australia¢s high nitrogen footprint
X Liang, AM Leach, JN Galloway, B Gu, SK Lam, D Chen
Scientific Reports 6 (1), 39644, 2016
692016
Elevated CO2 cannot compensate for japonica grain yield losses under increasing air temperature because of the decrease in spikelet density
W Wang, C Cai, SK Lam, G Liu, J Zhu
European Journal of Agronomy 99, 21-29, 2018
672018
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