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WARMER model projections of sea-level rise for eight tidal marsh study areas...
We used WARMER, a 1-D cohort model of wetland accretion (Swanson et al. 2014), which is based on Callaway et al. (1996), to examine SLR projections across each study site. Each... -
WARMER model projections of sea-level rise for eight tidal marsh study areas...
We used WARMER, a 1-D cohort model of wetland accretion (Swanson et al. 2014), which is based on Callaway et al. (1996), to examine SLR projections across each study site. Each... -
WARMER model projections of sea-level rise for eight tidal marsh study areas...
We used WARMER, a 1-D cohort model of wetland accretion (Swanson et al. 2014), which is based on Callaway et al. (1996), to examine SLR projections across each study site. Each... -
WARMER model projections of sea-level rise for eight tidal marsh study areas...
We used WARMER, a 1-D cohort model of wetland accretion (Swanson et al. 2014), which is based on Callaway et al. (1996), to examine SLR projections across each study site. Each... -
Field and model data for studying the effects of sea-level rise on eight...
The research was conducted at eight tidal marshes in coastal estuaries spanning the Washington and Oregon coastlines from Padilla Bay in northern Washington to Bandon located at... -
Field and model data for studying the effects of sea-level rise on eight...
The research was conducted at eight tidal marshes in coastal estuaries spanning the Washington and Oregon coastlines from Padilla Bay in northern Washington to Bandon located at... -
WARMER model projections of sea-level rise for eight tidal marsh study areas...
We used WARMER, a 1-D cohort model of wetland accretion (Swanson et al. 2014), which is based on Callaway et al. (1996), to examine SLR projections across each study site. Each...