Landscape-scale consequences of differential tree mortality from catastrophic wind disturbance in the Amazon

Wind disturbance can create large forest blowdowns, which greatly reduces live biomass and adds uncertainty to the strength of the Amazon carbon sink. Observational studies from within the central Amazon have quantified blowdown size and estimated total mortality but have not determined which trees...

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Published in	Ecological applications Vol. 26; no. 7; p. 2225
Main Authors	Rifai, Sami W, Urquiza Muñoz, José D, Negrón-Juárez, Robinson I, Ramírez Arévalo, Fredy R, Tello-Espinoza, Rodil, Vanderwel, Mark C, Lichstein, Jeremy W, Chambers, Jeffrey Q, Bohlman, Stephanie A
Format	Journal Article
Language	English
Published	United States 01.10.2016
Subjects	Environmental Monitoring Forests Models, Biological Peru Trees Wind Iquitos tree mortality necromass selective mortality downburst blowdown windthrow Loreto wood density INLA spectral mixture analysis wind disturbance Amazon canopy gap
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Abstract	Wind disturbance can create large forest blowdowns, which greatly reduces live biomass and adds uncertainty to the strength of the Amazon carbon sink. Observational studies from within the central Amazon have quantified blowdown size and estimated total mortality but have not determined which trees are most likely to die from a catastrophic wind disturbance. Also, the impact of spatial dependence upon tree mortality from wind disturbance has seldom been quantified, which is important because wind disturbance often kills clusters of trees due to large treefalls killing surrounding neighbors. We examine (1) the causes of differential mortality between adult trees from a 300-ha blowdown event in the Peruvian region of the northwestern Amazon, (2) how accounting for spatial dependence affects mortality predictions, and (3) how incorporating both differential mortality and spatial dependence affect the landscape level estimation of necromass produced from the blowdown. Standard regression and spatial regression models were used to estimate how stem diameter, wood density, elevation, and a satellite-derived disturbance metric influenced the probability of tree death from the blowdown event. The model parameters regarding tree characteristics, topography, and spatial autocorrelation of the field data were then used to determine the consequences of non-random mortality for landscape production of necromass through a simulation model. Tree mortality was highly non-random within the blowdown, where tree mortality rates were highest for trees that were large, had low wood density, and were located at high elevation. Of the differential mortality models, the non-spatial models overpredicted necromass, whereas the spatial model slightly underpredicted necromass. When parameterized from the same field data, the spatial regression model with differential mortality estimated only 7.5% more dead trees across the entire blowdown than the random mortality model, yet it estimated 51% greater necromass. We suggest that predictions of forest carbon loss from wind disturbance are sensitive to not only the underlying spatial dependence of observations, but also the biological differences between individuals that promote differential levels of mortality.
AbstractList	Wind disturbance can create large forest blowdowns, which greatly reduces live biomass and adds uncertainty to the strength of the Amazon carbon sink. Observational studies from within the central Amazon have quantified blowdown size and estimated total mortality but have not determined which trees are most likely to die from a catastrophic wind disturbance. Also, the impact of spatial dependence upon tree mortality from wind disturbance has seldom been quantified, which is important because wind disturbance often kills clusters of trees due to large treefalls killing surrounding neighbors. We examine (1) the causes of differential mortality between adult trees from a 300-ha blowdown event in the Peruvian region of the northwestern Amazon, (2) how accounting for spatial dependence affects mortality predictions, and (3) how incorporating both differential mortality and spatial dependence affect the landscape level estimation of necromass produced from the blowdown. Standard regression and spatial regression models were used to estimate how stem diameter, wood density, elevation, and a satellite-derived disturbance metric influenced the probability of tree death from the blowdown event. The model parameters regarding tree characteristics, topography, and spatial autocorrelation of the field data were then used to determine the consequences of non-random mortality for landscape production of necromass through a simulation model. Tree mortality was highly non-random within the blowdown, where tree mortality rates were highest for trees that were large, had low wood density, and were located at high elevation. Of the differential mortality models, the non-spatial models overpredicted necromass, whereas the spatial model slightly underpredicted necromass. When parameterized from the same field data, the spatial regression model with differential mortality estimated only 7.5% more dead trees across the entire blowdown than the random mortality model, yet it estimated 51% greater necromass. We suggest that predictions of forest carbon loss from wind disturbance are sensitive to not only the underlying spatial dependence of observations, but also the biological differences between individuals that promote differential levels of mortality.
Author	Bohlman, Stephanie A Vanderwel, Mark C Chambers, Jeffrey Q Ramírez Arévalo, Fredy R Negrón-Juárez, Robinson I Lichstein, Jeremy W Rifai, Sami W Urquiza Muñoz, José D Tello-Espinoza, Rodil
Author_xml	– sequence: 1 givenname: Sami W surname: Rifai fullname: Rifai, Sami W email: srifai@gmail.com organization: School of Forest Resources and Conservation, University of Florida, Gainesville, Florida, 32611, USA. srifai@gmail.com – sequence: 2 givenname: José D surname: Urquiza Muñoz fullname: Urquiza Muñoz, José D organization: Facultad de Ciencias Forestales, Universidad Nacional Amazonía Peruana, Iquitos, Perú – sequence: 3 givenname: Robinson I surname: Negrón-Juárez fullname: Negrón-Juárez, Robinson I organization: Climate Sciences Department, Earth Sciences Division, Lawrence Berkeley National Laboratory, Berkeley, California, 94720, USA – sequence: 4 givenname: Fredy R surname: Ramírez Arévalo fullname: Ramírez Arévalo, Fredy R organization: Facultad de Ciencias Forestales, Universidad Nacional Amazonía Peruana, Iquitos, Perú – sequence: 5 givenname: Rodil surname: Tello-Espinoza fullname: Tello-Espinoza, Rodil organization: Facultad de Ciencias Forestales, Universidad Nacional Amazonía Peruana, Iquitos, Perú – sequence: 6 givenname: Mark C surname: Vanderwel fullname: Vanderwel, Mark C organization: Department of Biology, University of Regina, 3737 Wascana Pkwy, Regina, SK, S4S 0A2, Canada – sequence: 7 givenname: Jeremy W surname: Lichstein fullname: Lichstein, Jeremy W organization: Department of Biology, University of Florida, Gainesville, Florida, 32611, USA – sequence: 8 givenname: Jeffrey Q surname: Chambers fullname: Chambers, Jeffrey Q organization: Instituto Nacional de Pesquisas da Amazônia, Coordenação de Pesquisas de Silvicultura Tropical, 69060-001, Manaus, Amazonas, Brazil – sequence: 9 givenname: Stephanie A surname: Bohlman fullname: Bohlman, Stephanie A organization: Smithsonian Tropical Research Institute, Apartado 0843-03092, Balboa, Ancon, Republic of Panama
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Title	Landscape-scale consequences of differential tree mortality from catastrophic wind disturbance in the Amazon
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