65. Hessilt, T., Rogers, B., Scholten, R., Potter, S., Janssen, T. , & Veraverbeke, S. (2024). Geographically divergent trends in snow disappearance timing and fire ignitions across boreal North America. Biogeosciences, 21(1), 109-129. 

64. Janssen, T., Jones, M., Finney, D., van der Werf, G., van Wees, D., Xu, W., & Veraverbeke, S. (2023). Extratropical forests increasingly at risk due to lightning fires. Nature Geoscience, 1-9. 

63. Qu, Y., Miralles, D., Veraverbeke, S., Vereecken, H., & Montzka, C. (2023). Wildfire precursors show complementary predictability in different timescales. Nature communications, 14, 6829. 

62. Potter, S., Cooperdock, S., Veraverbeke, S., Walker, X., Mack, M., Goetz, S.,  Baltzer, J., Bourgeau-Chavez, L., Burrell, A., Dieleman, C., French, N., Hantson, S., Hoy, E., Jenkins, L., Johnstone, J., Kane, E., Natali, S., Randerson, J., Turetsky, M., Whitman, E., Wiggins, E. & Rogers, B. (2023). Burned area and carbon emissions across northwestern boreal North America from 2001–2019. Biogeosciences, 20, 2785-2804. 

61. Moris, J., Álvarez-Álvarez, P., Conedera, M., Dorph, A., Hessilt, T., Hunt, H., Libonati, R., Menezes, L., Muller, M., Perez-Invernon, F., Pezzati, G., Pineda, N., Scholten, R., Veraverbeke, S., Wotton, M. & Ascoli, D. (2023). A global database on holdover time of lightning-ignited wildfires. Earth System Science Data, 15, 1151-1163. 

60. Scholten, R., Coumou, D., Luo, F. & Veraverbeke, S. (2022). Early snowmelt and polar jet dynamics co-influence recent extreme Siberian fire seasons. Science, 378, 1005-1009.

59. Jones, M., Abatzoglou, J., Veraverbeke, S., Andela, N., Lasslop, G., Forkel, M., Smith, A., Burton, C., Betts, R., van der Werf, G., Sitch, S., Canadell, J., Santin, C., Kolden, C., Doerr, S., & Le Quéré (2022). Global and regional trends of fire under climate change. Reviews of Geophysics, 60, e2020RG000726.

58. van Wees, D., van der Werf, G., Randerson, J., Rogers, B., Chen, Y.,  Veraverbeke, S., Giglio, L. & Morton, D.  (2022). Global biomass burning fuel consumption and emissions at 500 m spatial resolutions based on the Global Fire Emissions Database (GFED). Geoscientific Model Development, 115, 103101.

57. Li, Y., Chen, R., He, B. & Veraverbeke, S. (2022). Forest foliage fuel load estimation from multi-sensor spatiotemporal features. International Journal of Applied Earth Observation and Geoinformation, 115, 103101.

56. Delcourt, C. & Veraverbeke, S. (2022). Allometric equations and wood density parameters for estimating aboveground and woody debris biomass in Cajander larch (Larix cajanderi) forests of northeast Siberia. Biogeosciences, 19, 4499-4520.

55. de Hoop, E., Brouwers, H., Buijs, S., Egberts, L., van Gerrevink, M., de Ruiter, M. & Veraverbeke, S. (2022). Multi-stakeholder analysis of fire risk reduction in a densely populated area in the Netherlands: a case study in the Veluwe area. Environmental Research Letters, 17, 095011.

54. Dijkstra, J., Durrant, T., San-Miguel-Ayanz, J. & Veraverbeke, S. (2022). Anthropogenic and lightning fire incidence and burned area in Europe. Land, 11, 651.

53. Riet, M. & Veraverbeke, S. (2022). How much of a pixel needs to burn to be detected by satellites? A spectral modeling experiment based on ecosystem data from Yellowstone National Park, USA. Remote Sensing, 14, 2075.

52. Hessilt, T., Abatzoglou, J., Chen, Y., Randerson, J., Scholten, R., van der Werf, G. & Veraverbeke, S. (2022). Future increases in lightning ignition efficiency and wildfire occurrence expected from drier fuels in boreal forest ecosystems of western North America. Environmental Research Letters, 17, 054008.

51. Xu, W., Scholten, R., Hessilt, T., Liu, Y. & Veraverbeke, S. (2022). Overwintering fires rising in eastern Siberia. Environmental Research Letters, 17, 045005.

50. Bokhorst, S., Cornelissen, H. & Veraverbeke, S. (2022). Long-term legacies of seasonal extremes in Arctic ecosystem functioning. Global Change Biology, 0, 1-2.

49. Foster, A., Shuman, J., Rogers, B., Walker, X., Mack, M., Bourgeau-Chavez, L., Veraverbeke, S. &  Goetz, S. (2022). Bottom-up drivers of future fire regimes in western boreal North America. Environmental Research Letters, 17, 025006.

48. Scholten, R., Jandt, R., Miller, E., Rogers, B. & Veraverbeke, S. (2021). Overwintering fires in boreal forests. Nature, 593, 399-404. Highly cited paper on WoS 🔥

47. Veraverbeke, S., Delcourt, C., Kukavskaya, E., Mack, M., Walker, X., Hessilt, T. , Rogers, B. & Scholten, R. (2021). Direct and longer-term emissions from arctic-boreal fires: a short review of recent advances. Current Opinion in Environmental Science & Health, 23,100277.

46. Chen, Y., Romps, D., Seeley, J., Veraverbeke, S., Riley, W., Mekonnen, Z. & Randerson, J. (2021). Future increases in Arctic lightning and fire risk for permafrost carbon. Nature Climate Change, 11, 404-410. 

45. Baltzer, J., Day, N., Walker, X., Greene, D., Mack, M., Alexander, H., Arseneault, D., Barnes, J., Begeron, Y., Boucher, Y., Bourgeau-Chavez, L., Brown, C., Carriere, S.,  Howard, K., Gauthier, S., Parisien, M., Reid, K., Rogers, B., Roland, C., Sirois, L., Sthen, S., Thompson, D., Turetsky, M., Veraverbeke, S., Whitman, E., Yang, J. & Johnstone, J. (2021). Increasing fire and the decline of fire adapted black spruce in the boreal forest. Proceedings of the National Academy of Sciences, 118, e2024872118  

44. Xu, W., Liu, Y., Veraverbeke, S., Wu, W., Dong, Y. & Lu, W. (2021).  Active fire dynamics in the Amazon: new perspectives from high-resolution satellite observations. Geophysical Research Letters, 48, e2021GL093789  

43. van Gerrevink, M. & Veraverbeke, S. (2021). Evaluating the hyperspectral sensitivity of the differenced normalized burn ratio for assessing fire severity. Remote Sensing, 13, 4611. 

42. Fernandez-Anez, N. & 97 co-authors including Veraverbeke, S. (2021). Current wildfire patterns and challenges in Europe: a synthesis of national perspectives. Air, Soil and Water Research, 14, 1-19.

41. Delcourt, C., Combee, A., Izbicki, B., Mack, M., Maximov, T., Petrov, R., Rogers, B., Scholten, R., Shestakova, T., van Wees, D. & Veraverbeke, S. (2021). Evaluating the differenced Normalized Burn Ratio for assessing fire severity using Sentinel-2 imagery in Northeast Siberian larch forests. Remote Sensing, 13, 2311. 

40. Wiggins, E., Andrews, A., Sweeney, C., Miller, J., Miller, C., Veraverbeke, S., Commane, R., Wofsy, S., Henderson, J. & Randerson, J. (2021). Boreal forest fire CO and CH4 emissions factors derived from tower observations in Alaska during the extreme fire season of 2015. Atmospheric Chemistry and Physics, 21, 8557-8574. 

39. van Gerrevink, M. & Veraverbeke, S. (2021). Evaluating the near and mid infrared bi-spectral space for assessing fire severity and comparison with the differenced normalized burn ratio. Remote Sensing, 13, 695. 

38. van Dijk, M., Shoaie, S., van Leeuwen, T. & Veraverbeke, S. (2021). Spectral signature analysis of false positive burned area detection from agricultural harvest using Sentinel-2 data. International Journal of Applied Earth Observation and Geoinformation, 97, 102296.

37. Walker, X., Rogers, B., Veraverbeke, S., Johnstone, J., Baltzer, J., Barrett, K., Bourgeau-Chavez, L., Day, N., de Groot, W., Dieleman, C., Goetz, S., Hoy, E., Jenkins, L., Kane, E., Parisien, M., Potter, S., Schuur, E., Turetsky, M., Whitman, E. & Mack, M.  (2020). Fuel availability not fire weather controls boreal wildfire severity and carbon emissions. Nature Climate Change, 10, 1130-1136.

36. Plakman, V., Janssen, T., Brouwer, N. & Veraverbeke, S. (2020). Mapping species at an individual-tree scale in a temperate forest, using Sentinel-2 images, airborne laser scanning data, and random forest classification. Remote Sensing, 12, 3710. 

35. Dieleman, C., Rogers, B., Potter, S., Veraverbeke, S., Johnstone, J., Laflamme, J., Solvik, K., Walker, X., Mack, M. & Turetsky, M. (2020). Wildfire combustion and carbon stocks in the southern Canadian boreal forest: Implications for a warming world. Global Change Biology, 26, 6062-6079. 

34. Walker, X., Baltzer, J., Bourgeau-Chavez, L., Day, N., Dieleman, C., Rogers, B., Turetsky, M., Veraverbeke, S. & Mack, M. (2020). Patterns of ecosystem structure and wildfire carbon combustion across six ecoregions of the North American boreal forest. Frontiers in Forests and Global Change, 3, 87. 

33. Potter, S., Solvik, K., Erb, A., Goetz, S.,  Johnstone, J., Mack, M., Randerson, J., Roman, M., Schaaf, C., Turetsky, M., Veraverbeke, S., Walker, X., Wang, Z., Massey, R. & Rogers, B. (2020). Climate change decreases the cooling effect from postfire albedo in boreal North America.  Global Change Biology, 26, 1592-1607. 

32. Lasslop, G., Coppola, A., Voulgarakis, A., Yue, C. & Veraverbeke, S. (2019). Influence of fire on the carbon cycle and climate. Current Climate Change Reports, 5, 112-123.

31. Veraverbeke, S., Dennison, P., Gitas, I., Hulley, G., Kalashnikova, O., Katagis, T., Kuai, L., Meng, R., Roberts, D. & Stravros, N. (2018). Hyperspectral remote sensing of fire: state-of-the-art and future perspectives. Remote Sensing of Environment, 216, 105-121.

30. Tane, Z., Roberts, D., Veraverbeke, S., Casas, A., Ramirez, C., Ustin, S. (2018). Evaluating endmember and band selection techniques for multiple endmember spectral mixture analysis using post-fire image spectroscopy. Remote Sensing, 10, 389.

29. Veraverbeke, S., Rogers, B., Goulden, M., Jandt, R., Miller, C., Wiggins, E., & Randerson, J. (2017). Lightning as a major driver of recent large fire years in North American boreal forests. Nature Climate Change, 7, 529-534. Highly cited paper on WoS 🔥

28.  Commane, R., Lindaas, J., Benmergui, J., Luus, A., Chang, R., Daube, B., Euskirchen, E., Henderson, J., Karion, A., Miller, J., Miller, S., Parazoo, N., Sweeney, C., Tans, P., Thoning, K., Veraverbeke, S., Miller, C., & Wofsy, S. (2017). Rising carbon dioxide emissions from Arctic tundra driven by early winter respiration. Proceedings of the National Academy of Sciences, 114, 5361-5366.  

27. Wiggins, E., Veraverbeke, S., Henderson, J., Karion, A., Miller, J., Lindaas, J., Commane, R., Sweeny, C., Luus, K., Tosca, M., Dinardo, S., Wofsy, S., Miller, C., & Randerson, J. (2016). The influence of daily meteorology on boreal fire emissions and regional trace gas variability. Journal of Geophysical Research, 121.

26. Veraverbeke, S., Rogers, B., & Randerson, J. (2015). Daily burned area and carbon emissions from boreal fires in Alaska. Biogeosciences, 12, 3579-3601

25. Mouteva, G., Czimzik, C., Fahrni, S., Wiggins, E., Rogers, B., Veraverbeke, S., Xu, X., Santos, G., Henderson, J., Miller, C., & Randerson, J. (2015). Black carbon aerosol dynamics and isotopic composition in Alaska linked with boreal fire emissions and depth of burn in organic soils. Global Biogeochemical Cycles. 29, 1-24.

24.  Jin, Y., Goulden, M., Faivre, N., Veraverbeke, S., Fengpeng, S., Hall, A., Hand, M., Hook, S., & Randerson, J. (2015). Identification of two distinct fire regimes in Southern California: Implications for economic impact and future change. Environmental Research Letters, 10, 094005. 

23. Rogers, B., Veraverbeke, S., Azzari, G., Czimzik, C., Holden, S., Mouteva, G., Sedano, F., Treseder, K., & Randerson, J. (2014). Quantifying fire-wide carbon emissions in interior Alaska using field measurements and Landsat imagery. Journal of Geophysical Research, 119, 1608-1629.

22. Veraverbeke, S., Stavros, N. & Hook, S. (2014). Assessing fire severity using imaging spectroscopy data from the Airborne Visible/Infrared Imaging Spectrometer (AVIRIS) and comparison with multispectral capabilities. Remote Sensing of Environment, 154, 153-163.

21. Katagis, T., Gitas, I., Toukiloglou, P., Veraverbeke, S. & Goossens, R. (2014). Trend analysis of medium and coarse resolution time series image data for burned area mapping and post-fire monitoring. International Journal of Wildland Fire, 23, 668-677.

20. Veraverbeke, S., Sedano, F., Hook, S., Randerson, J., Jin, Y. & Rogers, B. (2014). Mapping the daily progression of large wildland fires using MODIS active fire data. International Journal of Wildland Fire, 23, 655-667. 

19. de Muelenaere, S., Frankl, A., Haile, M., Poesen, J., Deckers, J., Munro, R., Veraverbeke, S. & Nyssen, J. (2014). Historical landscape photographs for calibration of Landsat land use/cover (1972) in the Ethiopian highlands. Land Degradation and Development, 25, 319-335.

18. Schepers, L., Haest, B., Veraverbeke, S., Spanhove, T., Vanden Borre, J. & Goossens, R. (2014). Burned area detection and burn severity assessment of a heathland fire in Belgium using airborne imaging spectroscopy (APEX). Remote Sensing, 6, 1803-1826.

17. Hulley, G., Veraverbeke, S. & Hook, S. (2014). Thermal-based techniques for land cover change detection using a new dynamic MODIS multispectral emissivity product (MOD21). Remote Sensing of Environment, 140, 755-765.

16. Polychronaki, A., Gitas, I., Veraverbeke, S. & Debien, A. (2013). Evaluation of ALOS PALSAR imagery for burned area mapping in Greece using object-based classification. Remote Sensing, 5, 5680-5701.

15. Veraverbeke, S. & Hook, S. (2013). Evaluating spectral indices and spectral mixture analysis for assessing fire severity, combustion completeness and carbon emissions. International Journal of Wildland Fire, 22, 707-720.

14. Van De Kerchove, R., Lhermitte, S., Veraverbeke, S., & Goossens, R. (2013). Assessment of the spatio-temporal variability in remotely sensed Land Surface Temperature, and its relationship with physiographic variables in the Russian Altay Mountains. International Journal of Applied Earth Observation and Geoinformation, 20, 4-19. 

13. Veraverbeke, S., Hook, S. & Harris, S. (2012). Synergy of VSWIR (0.4-2.5 μm) and MTIR (3.5-12.5 μm) data for post-fire assessments. Remote Sensing of Environment, 124, 771-779. 

12. Veraverbeke, S., Verstraeten, W.W., Lhermitte, S., Van De Kerchove, R. & Goossens, R. (2012). Assessment of post-fire changes in land surface temperature and surface albedo, and their relation with fire-burn severity using multitemporal MODIS imagery. International Journal of Wildland Fire, 21, 243-256. 

11.  Veraverbeke, S., Hook, S. & Hulley, G. (2012). An alternative spectral index for rapid fire severity assessments. Remote Sensing of Environment, 123, 72-80.

10. Veraverbeke, S., Gitas, I., Katagis, T., Polychronaki, A., Somers, B. & Goossens, R. (2012). Assessing post-fire vegetation recovery using red-near infrared vegetation indices: accounting for background and vegetation variability. ISPRS Journal of Photogrammetry and Remote Sensing, 68, 28-39.

9. Veraverbeke, S., Somers, B., Gitas, I., Katagis, T., Polychronaki, A. & Goossens, R. (2012). Spectral mixture analysis to assess post-fire vegetation regeneration using Landsat Thematic mapper imagery: accounting for soil brightness variation. International Journal of Applied Earth Observation and Geoinformation, 14, 1-11.

8. Harris, S., Veraverbeke, S., & Hook, S. (2011). Evaluating spectral indices for assessing fire severity in chaparral ecosystems (southern California) using MODIS/ASTER (MASTER) airborne simulator data. Remote Sensing, 3, 2403-2419.

7. Veraverbeke, S., Harris, S. & Hook, S. (2011). Evaluating spectral indices for burned area discrimination using MODIS/ASTER (MASTER) airborne simulator data. Remote Sensing of Environment, 115, 2702-2709.

6. Veraverbeke, S., Lhermitte, S., Verstraeten, W.W., & Goossens, R. (2011). Evaluation of pre/post-fire differenced spectral indices for assessing burn severity in a Mediterranean environment with Landsat Thematic Mapper. International Journal of Remote Sensing 32, 3521-3537.

5. Veraverbeke, S., Lhermitte, S., Verstraeten, W.W., & Goossens, R., (2011). A time-integrated MODIS burn severity assessment using the multi-temporal differenced Normalized Burn Ratio (dNBRMT). International Journal of Applied Earth Observation and Geoinformation 13, 52-58.

4. Lhermitte, S., Verbesselt, J., Verstraeten, W.W., Veraverbeke, S. & Coppin, P. (2011). Assessment of the intra-annual variation in vegetation regrowth after fire based on the pixel based regeneration index. ISPRS Journal of Photogrammetry and Remote Sensing 66, 17-27. 

3. Veraverbeke, S., Lhermitte, S., Verstraeten, W.W., & Goossens, R., (2010). The temporal dimension of differenced Normalized Burn Ratio (dNBR) fire/burn severity studies: the case of the large 2007 Peloponnese wildfires in Greece. Remote Sensing of Environment 114, 2548-2563

2. Veraverbeke, S., Verstraeten, W.W., Lhermitte, S., & Goossens, R. (2010). Evaluating Landsat Thematic Mapper spectral indices for estimating burn severity of the 2007 Peloponnese wildfires in Greece. International Journal of Wildland Fire 19, 558-569

1. Veraverbeke, S., Verstraeten, W.W., Lhermitte, S. & Goossens, R. (2010). Illumination effects on the differenced Normalized Burn Ratio’s optimality for assessing fire severity. International Journal of Applied Earth Observation and Geoinformation, 12, 60-70

Last update on January 25, 2024