Sebastian Lienert
Overview
Explore the profile of Sebastian Lienert including associated specialties, affiliations and a list of published articles.
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Articles
13
Citations
392
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Recent Articles
1.
Pan N, Tian H, Shi H, Pan S, Canadell J, Chang J, et al.
Environ Int
. 2025 Feb;
196:109297.
PMID: 39908694
Nitrous oxide (NO) is the most important stratospheric ozone-depleting agent based on current emissions and the third largest contributor to increased net radiative forcing. Increases in atmospheric NO have been...
2.
OSullivan M, Friedlingstein P, Sitch S, Anthoni P, Arneth A, Arora V, et al.
Nat Commun
. 2022 Aug;
13(1):4781.
PMID: 35970991
The observed global net land carbon sink is captured by current land models. All models agree that atmospheric CO and nitrogen deposition driven gains in carbon stocks are partially offset...
3.
Wang S, Zhang Y, Ju W, Chen J, Cescatti A, Sardans J, et al.
Science
. 2021 Sep;
373(6562):eabg7484.
PMID: 34554812
Our study suggests that the global CO fertilization effect (CFE) on vegetation photosynthesis has declined during the past four decades. The Comments suggest that the temporal inconsistency in AVHRR data...
4.
Wang S, Zhang Y, Ju W, Chen J, Ciais P, Cescatti A, et al.
Science
. 2020 Dec;
370(6522):1295-1300.
PMID: 33303610
The enhanced vegetation productivity driven by increased concentrations of carbon dioxide (CO) [i.e., the CO fertilization effect (CFE)] sustains an important negative feedback on climate warming, but the temporal dynamics...
5.
Tian H, Xu R, Canadell J, Thompson R, Winiwarter W, Suntharalingam P, et al.
Nature
. 2020 Oct;
586(7828):248-256.
PMID: 33028999
Nitrous oxide (NO), like carbon dioxide, is a long-lived greenhouse gas that accumulates in the atmosphere. Over the past 150 years, increasing atmospheric NO concentrations have contributed to stratospheric ozone...
6.
Yang H, Ciais P, Santoro M, Huang Y, Li W, Wang Y, et al.
Glob Chang Biol
. 2020 May;
26(7):3997-4012.
PMID: 32427397
Gaps in our current understanding and quantification of biomass carbon stocks, particularly in tropics, lead to large uncertainty in future projections of the terrestrial carbon balance. We use the recently...
7.
Wang K, Wang Y, Wang X, He Y, Li X, Keeling R, et al.
Glob Chang Biol
. 2020 May;
26(8):4462-4477.
PMID: 32415896
Changing amplitude of the seasonal cycle of atmospheric CO (SCA) in the northern hemisphere is an emerging carbon cycle property. Mauna Loa (MLO) station (20°N, 156°W), which has the longest...
8.
Yun J, Jeong S, Ho C, Park H, Liu J, Lee H, et al.
Glob Chang Biol
. 2020 Mar;
26(6):3368-3383.
PMID: 32125754
Understanding changes in terrestrial carbon balance is important to improve our knowledge of the regional carbon cycle and climate change. However, evaluating regional changes in the terrestrial carbon balance is...
9.
Paschalis A, Fatichi S, Zscheischler J, Ciais P, Bahn M, Boysen L, et al.
Glob Chang Biol
. 2020 Feb;
26(6):3336-3355.
PMID: 32012402
Changes in rainfall amounts and patterns have been observed and are expected to continue in the near future with potentially significant ecological and societal consequences. Modelling vegetation responses to changes...
10.
Kondo M, Patra P, Sitch S, Friedlingstein P, Poulter B, Chevallier F, et al.
Glob Chang Biol
. 2019 Dec;
26(3):1068-1084.
PMID: 31828914
Robust estimates of CO budget, CO exchanged between the atmosphere and terrestrial biosphere, are necessary to better understand the role of the terrestrial biosphere in mitigating anthropogenic CO emissions. Over...