1
Zhang, Q., Li, Y., Kroeze, C., van de Schans, M. G., Baartman, J.,
Yang,
J., Li, S., Xu, W., Wang, M., & Ma, L.. More inputs of antibiotics into groundwater
but
less
into rivers as a result of manure management in China. Environmental Science and
Ecotechnology
2025; 23: 100513.
2
Chen, M., Hoendermis, M., Strokal, M., Janssen, A. B. G., Du, X.,
Kong,
X., Kroeze, C., & Wang, M. (2025). From turbid to clear: Exploring management options
to
mitigate future nutrient pollution in Lake Taihu. Earth Critical Zone, 2, 100024.
3
Wang M, Bodirsky BL, Rijneveld R, Beier F, Bak MP, Batool M,
Droppers B,
Popp A, van Vliet MT, Strokal M. A triple increase in global river basins with water
scarcity
due to future pollution. Nature Communications. 2024 Feb 6;15(1):880.
4
Feng S, Wang M, Heal MR, Liu X, Liu X, Zhao Y, Strokal M,
Kroeze C,
Zhang
F, Xu W. The impact of emissions controls on atmospheric nitrogen inputs to Chinese river
basins
highlights the urgency of ammonia abatement. Science Advances. 2024 Sep 11;10(37):eadp2558.
5
Sutanto SJ, Zarzoza Mora SB, Supit I, Wang M. Compound and
cascading
droughts and heatwaves decrease maize yields by nearly half in Sinaloa, Mexico. npj Natural
Hazards 2024; 1: 26.
6
Strokal M, Wang M, Micella I, Janssen AB. Building trust in
large-scale
water quality models: 13 alternative strategies beyond validation. Discover Water 2024; 4:
82.
7
Liu L, Bai Z, Yang J, Yuan Z, Lun F, Wang M, Strokal M, Kroeze
C,
Cui Z,
Chen X, Ma L. An optimized crop–livestock system can achieve a safe and just planetary
boundary
for phosphorus at the sub-basin level in China. Nature Food. 2024 Jun 7:1-4.
8
Li Y, Wang M, Zhang Q, Kroeze C, Xu W, Ma L, Zhang F, Strokal
M.
The
future of Chinese rivers: Increasing plastics, nutrients and Cryptosporidium pollution in
half
of the basins. Resources, Conservation and Recycling. 2024 Jun 1;205:107553.
9
Sun Y, Wang M, Yang J, Song C, Chen X, Chen X, Strokal M.
Increasing
cascade dams in the upstream area reduce nutrient inputs to the Three Gorges Reservoir in
China.
Science of The Total Environment. 2024 Mar 15:171683.
10
van Wijk D, Janse JH, Wang M, Kroeze C, Mooij WM, Janssen AB.
How
nutrient
retention and TN: TP ratios depend on ecosystem state in thousands of Chinese lakes. Science
of
The Total Environment. 2024 Feb 5:170690.
11
Meng F, Ronda R, Strokal M, Kroeze C, Ma L, Krol M, de Graaf I, Zhao
Y,
Wang Y, Du X, Liu X, Xu W, Zhang F, Wang M. Setting goals for agricultural nitrogen
emission
reduction to ensure safe air and groundwater quality: A case study of Quzhou, the North
China
Plain. Journal of Environmental Management. 2024 Feb 1;351:119737.
12
Zhang Q, Kroeze C, Cui S, Li Y, Ma L, Strokal V, Vriend P, Wang
M,
van
Wijnen J, Xu W, Zhang F. COVID-19 estimated to have increased plastics, diclofenac, and
triclosan pollution in more than half of urban rivers worldwide. Cell Reports
Sustainability.
2024 Jan 26;1(1).
13
Wang M, Zhang Q, Li Y, Bak M, Feng S, Kroeze C, Meng F, Micella
I,
Strokal V, Ural-Janssen A, Strokal M. Water pollution and agriculture: Multi-pollutant
perspectives. Frontiers of Agricultural Science and Engineering. 2023 Jan 1;10(4):639-47.
14
Li Y, Zhang Q, Baartman J, van Wijnen J, Beriot N, Kroeze C, Wang
M, Xu W, Ma L, Wang K, Zhang F. The plastic age: River pollution in China from crop
production and urbanization. Environmental Science & Technology. 2023 Aug 1;57(32):12019-32.
15
Wang, M., Janssen, A. B., Bazin, J., Strokal, M., Ma, L., Wang,
C.
2022. Accounting for interactions between Sustainable Development Goals is essential for
water
pollution. Nature Communications. https://doi.org/10.1038/s41467-022-28351-3
16
Li, A., Wang, M., Kroeze, C., Ma, L. and Strokal, M., 2022.
Past
and future pesticide losses to Chinese waters under socioeconomic development and climate
change. Journal of Environmental Management, 317, p.115361.
17
Chen X, Wang M, Kroeze C, Chen X, Ma L, Chen X, Shi X, Strokal
M.
Nitrogen in the yangtze river basin: pollution reduction through coupling crop and livestock
production. Environmental Science & Technology. 2022 Nov 29;56(24):17591-603.
18
Strokal, V., Kuiper, E.J., Bak, M.P., Vriend, P., Wang, M., van
Wijnen, J. and Strokal, M., 2022. Future microplastics in the Black Sea: River exports and
reduction options for zero pollution. Marine Pollution Bulletin, 178, p.113633.
19
Meng, F., Zhang, Y., Kang, J., Heal, M.R., Reis, S., Wang, M.,
Liu,
L., Wang, K., Yu, S., Li, P. and Wei, J., 2022. Trends in secondary inorganic aerosol
pollution
in China and its responses to emission controls of precursors in wintertime. Atmospheric
Chemistry and Physics, 22(9), pp.6291-6308.
20
Li Y., Wang M., Chen X., Cui S., Hofstra N., Kroeze C., Ma L.,
Xu
W., Zhang Q., Zhang F. Multi-pollutant assessment of river pollution from livestock
production
worldwide. Water Research 2022; 209: 117906.
21
Meng F., Wang M., Strokal M., Kroeze C., Ma L., Li Y., Zhang
Q.,
Wei Z., Hou Y., Liu X. Nitrogen losses from food production in the North China Plain: A case
study for Quzhou. Science of The Total Environment 2021: 151557.
22
Strokal M., Janssen A.B., Chen X., Kroeze C., Li F., Ma L., Yu H.,
Zhang
F., Wang M. Green agriculture and blue water in China: reintegrating crop and
livestock
production for clean water. Frontiers of Agricultural Science and Engineering 2021; 8:
72-80.
23
Zhang Q., Li Y., Wang M., Wang K., Meng F., Liu L., Zhao Y., Ma
L.,
Zhu Q., Xu W. Atmospheric nitrogen deposition: A review of quantification methods and its
spatial pattern derived from the global monitoring networks. Ecotoxicology and Environmental
Safety 2021; 216: 112180.
24
Chen X., Strokal M., van Vliet M.T., Fu X., Wang M., Ma L.,
Kroeze
C. In-stream surface water quality in China: A spatially-explicit modelling approach for
nutrients. Journal of Cleaner Production 2021: 130208.
25
Wang, M., Kroeze, C., Strokal, M., Van Vliet, M. T. H. & Ma, L.
2020. Global change can make coastal eutrophication control in China more difficult. Earth's
Future, n/a, e2019EF001280.
26
Strokal, M., Janssen, A. B., Chen, X., Kroeze, C., Li, F., Ma, L., Yu,
H.,
Zhang, F. & Wang, M. 2020. Green agriculture and blue water in China: reintegrating
crop
and livestock production for clean water. Front. Agr. Sci. Eng. https://doi.
org/10.15302/J-FASE-2020366.
27
Chen, X., Strokal, M., Kroeze, C., Supit, I., Wang, M., Ma, L.,
Chen, X. & Shi, X. 2020. Modelling the contribution of crops to nitrogen pollution in the
Yangtze River. Environmental Science & Technology.
28
Ma, C., Strokal, M., Kroeze, C., Wang, M., LI, X., Hofstra, N.
&
Ma, L. 2020. Reducing river export of nutrients and eutrophication in Lake Dianchi in the
future. Blue-Green Systems, 2, 73-90.
29
Wang M., Strokal M., Burek P., Kroeze C., Ma L., Janssen A.B.G.
Excess nutrient loads to Lake Taihu: Opportunities for nutrient reduction. Science of The
Total
Environment 2019a; 664: 865-873.
30
Wang M., Tang T., Burek P., Havlík P., Krisztin T., Kroeze C.,
Leclère D., Strokal M., Wada Y., Wang Y., Langan S. Increasing nitrogen export to sea: A
scenario analysis for the Indus River. Science of The Total Environment 2019b: 133629.
31
Chen X., Strokal M., Van Vliet M.T., Stuiver J., Wang M., Bai
Z.,
Ma L., Kroeze C. Multi-scale modeling of nutrient pollution in the rivers of China.
Environmental science & technology 2019.
32
Yang J., Strokal M., Kroeze C., Wang M., Wang J., Wu Y., Bai
Z., Ma
L. Nutrient losses to surface waters in Hai He basin: A case study of Guanting reservoir and
Baiyangdian lake. Agricultural Water Management 2019; 213: 62-75.
33
Strokal M., Spanier J.E., Kroeze C., Koelmans A.A., Flörke M.,
Franssen
W., Hofstra N., Langan S., Tang T., Van Vliet M.T.H., Wada Y., Wang M., van Wijnen
J.,
Williams R. Global multi-pollutant modelling of water quality: scientific challenges and
future
directions. Current Opinion in Environmental Sustainability 2019; 36: 116-125.
34
Zhuo L., Liu Y., Yang H., Hoekstra A.Y., Liu W., Cao X., Wang
M.,
Wu P. Water for maize for pigs for pork: An analysis of inter-provincial trade in China.
Water
Research 2019: 115074.
35
Wang, M., Ma, L., Strokal, M., Ma, W., Liu, X., & Kroeze, C.
(2018). Hotspots for Nitrogen and Phosphorus Losses from Food Production in China: A
County-Scale Analysis. Environmental science & technology, 52(10), 5782-5791.
doi:10.1021/acs.est.7b06138
36
Wang, M., Ma, L., Strokal, M., Chu, Y., & Kroeze, C. (2018).
Exploring nutrient management options to increase nitrogen and phosphorus use efficiencies
in
food production of China. Agricultural Systems, 163, 58-72. doi:
https://doi.org/10.1016/j.agsy.2017.01.001
37
Bai Z, Lu J, Zhao H, Velthof GL, Oenema O, Chadwick D, Williams JR,
Jin S,
Liu H, Wang M, Strokal M. Designing vulnerable zones of nitrogen and phosphorus
transfers
to control water pollution in China. Environmental science & technology.
38
Wang, M., Kroeze, C., Strokal, M., & Ma, L. (2017). Reactive
nitrogen losses from China's food system for the shared socioeconomic pathways (SSPs).
Science
of The Total Environment, 605–606, 884-893. doi:
https://doi.org/10.1016/j.scitotenv.2017.06.235
39
Zhao, Z., Bai, Z., Wei, S., Ma, W., Wang, M., Kroeze, C., & Ma,
L.
(2017). Modeling farm nutrient flows in the North China Plain to reduce nutrient losses.
Nutrient Cycling in Agroecosystems, 1-14.
40
Strokal, M., Kroeze, C., Wang, M., & Ma, L. (2017). Reducing
future
river export of nutrients to coastal waters of China in optimistic scenarios. Science of The
Total Environment, 579, 517-528. doi: https://doi.org/10.1016/j.scitotenv.2016.11.065
41
Strokal, M., Kroeze, C., Wang, M., Bai, Z., & Ma, L. (2016).
The
MARINA model (Model to Assess River Inputs of Nutrients to seAs): Model description and
results
for China. Science of The Total Environment, 562, 869-888.
42
Kroeze, C., Gabbert, S., Hofstra, N., Koelmans, A. A., Li, A., Löhr,
A., .
. .Wang, M., van Wijnen, J. (2016). Global modelling of surface water quality: a
multi-pollutant approach. Current Opinion in Environmental Sustainability, 23(Supplement C),
35-45. doi: https://doi.org/10.1016/j.cosust.2016.11.014.