Using floristic gradient mapping to assess seasonal thaw depth in interior Alaska
Questions Is it possible to map floristic gradients in heterogeneous boreal vegetation by using remote-sensing data? Does a continuous vegetation map enable the creation of a spatially continuous map of seasonal permafrost soil thaw depth? Location Bonanza Creek LTER, Fairbanks, Alaska, USA. Methods...
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| Format: | Article in Journal/Newspaper |
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2021
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| Online Access: | https://refubium.fu-berlin.de/handle/fub188/31190 https://doi.org/10.17169/refubium-30926 https://doi.org/10.1111/avsc.12561 |
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ftfuberlin:oai:refubium.fu-berlin.de:fub188/31190 2023-05-15T17:57:27+02:00 Using floristic gradient mapping to assess seasonal thaw depth in interior Alaska Döpper, Veronika Panda, Santosh Waigl, Christine Braun, Matthias Feilhauer, Hannes Rocchini, Duccio 2021 11 Seiten application/pdf https://refubium.fu-berlin.de/handle/fub188/31190 https://doi.org/10.17169/refubium-30926 https://doi.org/10.1111/avsc.12561 eng eng https://refubium.fu-berlin.de/handle/fub188/31190 http://dx.doi.org/10.17169/refubium-30926 doi:10.1111/avsc.12561 https://creativecommons.org/licenses/by-nc/4.0/ CC-BY-NC boreal vegetation ordination permafrost predictive mapping remote sensing soil–vegetation interaction ddc:550 doc-type:article 2021 ftfuberlin https://doi.org/10.17169/refubium-30926 https://doi.org/10.1111/avsc.12561 2022-05-15T20:46:45Z Questions Is it possible to map floristic gradients in heterogeneous boreal vegetation by using remote-sensing data? Does a continuous vegetation map enable the creation of a spatially continuous map of seasonal permafrost soil thaw depth? Location Bonanza Creek LTER, Fairbanks, Alaska, USA. Methods Vegetation records are subjected to an ordination to extract the predominant floristic gradient. The ordination scores are then extrapolated using Sentinel 2 imagery and a digital elevation model (DEM). As the relation between vegetation pattern and seasonal thaw depth was confirmed in this study, the spatial distribution of ordination scores is then used to predict seasonal thaw depth over the same area. Results The first dimension of the ordination space separates species corresponding to moist and cold soil conditions from species associated with well-drained soils. This floristic gradient was successfully mapped within the sampled plant communities. The extrapolated thaw depths follow the typical distribution along a topographical and geomorphological gradient for this region. Besides vegetation information also DEM derivatives show high contributions to the thaw depth modeling. Conclusion We demonstrate that floristic gradient mapping in boreal vegetation is possible. The accuracy of the thaw depth prediction model is comparable to that in previous analyses but uses a more parsimonious set of predictors, underlining the efficacy of this approach. Article in Journal/Newspaper permafrost Alaska Freie Universität Berlin: Refubium (FU Berlin) Bonanza ENVELOPE(-119.820,-119.820,55.917,55.917) Fairbanks |
| institution |
Open Polar |
| collection |
Freie Universität Berlin: Refubium (FU Berlin) |
| op_collection_id |
ftfuberlin |
| language |
English |
| topic |
boreal vegetation ordination permafrost predictive mapping remote sensing soil–vegetation interaction ddc:550 |
| spellingShingle |
boreal vegetation ordination permafrost predictive mapping remote sensing soil–vegetation interaction ddc:550 Döpper, Veronika Panda, Santosh Waigl, Christine Braun, Matthias Feilhauer, Hannes Rocchini, Duccio Using floristic gradient mapping to assess seasonal thaw depth in interior Alaska |
| topic_facet |
boreal vegetation ordination permafrost predictive mapping remote sensing soil–vegetation interaction ddc:550 |
| description |
Questions Is it possible to map floristic gradients in heterogeneous boreal vegetation by using remote-sensing data? Does a continuous vegetation map enable the creation of a spatially continuous map of seasonal permafrost soil thaw depth? Location Bonanza Creek LTER, Fairbanks, Alaska, USA. Methods Vegetation records are subjected to an ordination to extract the predominant floristic gradient. The ordination scores are then extrapolated using Sentinel 2 imagery and a digital elevation model (DEM). As the relation between vegetation pattern and seasonal thaw depth was confirmed in this study, the spatial distribution of ordination scores is then used to predict seasonal thaw depth over the same area. Results The first dimension of the ordination space separates species corresponding to moist and cold soil conditions from species associated with well-drained soils. This floristic gradient was successfully mapped within the sampled plant communities. The extrapolated thaw depths follow the typical distribution along a topographical and geomorphological gradient for this region. Besides vegetation information also DEM derivatives show high contributions to the thaw depth modeling. Conclusion We demonstrate that floristic gradient mapping in boreal vegetation is possible. The accuracy of the thaw depth prediction model is comparable to that in previous analyses but uses a more parsimonious set of predictors, underlining the efficacy of this approach. |
| format |
Article in Journal/Newspaper |
| author |
Döpper, Veronika Panda, Santosh Waigl, Christine Braun, Matthias Feilhauer, Hannes Rocchini, Duccio |
| author_facet |
Döpper, Veronika Panda, Santosh Waigl, Christine Braun, Matthias Feilhauer, Hannes Rocchini, Duccio |
| author_sort |
Döpper, Veronika |
| title |
Using floristic gradient mapping to assess seasonal thaw depth in interior Alaska |
| title_short |
Using floristic gradient mapping to assess seasonal thaw depth in interior Alaska |
| title_full |
Using floristic gradient mapping to assess seasonal thaw depth in interior Alaska |
| title_fullStr |
Using floristic gradient mapping to assess seasonal thaw depth in interior Alaska |
| title_full_unstemmed |
Using floristic gradient mapping to assess seasonal thaw depth in interior Alaska |
| title_sort |
using floristic gradient mapping to assess seasonal thaw depth in interior alaska |
| publishDate |
2021 |
| url |
https://refubium.fu-berlin.de/handle/fub188/31190 https://doi.org/10.17169/refubium-30926 https://doi.org/10.1111/avsc.12561 |
| long_lat |
ENVELOPE(-119.820,-119.820,55.917,55.917) |
| geographic |
Bonanza Fairbanks |
| geographic_facet |
Bonanza Fairbanks |
| genre |
permafrost Alaska |
| genre_facet |
permafrost Alaska |
| op_relation |
https://refubium.fu-berlin.de/handle/fub188/31190 http://dx.doi.org/10.17169/refubium-30926 doi:10.1111/avsc.12561 |
| op_rights |
https://creativecommons.org/licenses/by-nc/4.0/ |
| op_rightsnorm |
CC-BY-NC |
| op_doi |
https://doi.org/10.17169/refubium-30926 https://doi.org/10.1111/avsc.12561 |
| _version_ |
1766165891440967680 |