Czm great marsh_20131114sm

Sea  Level  Rise:  Natural  Resource  Impacts  and  Considera8ons  for  

Great  Marsh  Community  Resilience  

Julia  Knisel,  Coastal  Shoreline  and  Floodplain  Manager  Kathryn  Glenn,  North  Shore  Regional  Coordinator  Massachuse8s  Office  of  Coastal  Zone  Management  

Coastal  Inunda8on  Mapping  Elements  •  Water  Level:  

–  Local  @de  ranges  –  Sea  level  rise  data  &  projec@ons  –  Flood  event  data  (surge  &  precipita@on)  

•  High  Resolu8on  Eleva8on  Data:  –  Topographic  &  bathymetric  LIDAR  –  Digital  eleva@on  models  referenced  to  

@dal  datums    

•  Natural  &  Human  Responses:  –  Current  ecosystems  (beaches  &  

wetlands)  –  Landform  changes  (erosion  &  accre@on)  –  Physical  barriers  to  migra@on  

(development,  seawalls,  culverts,  etc.)  

Cri8cal  Parameters  for  Modeling  Marsh  Migra8on  

•  If  sediment  accretes  (traps  on  surface  or  accumulates)  as  fast  as  sea  level  rises,  then  marsh  may  avoid  being  converted  or  submerged  

Marshes  on  the  Move,  2011  

Mean  Higher  High  Water  Tidal  Datum  

Sea  Level  Rise  Scenarios  

Historic  Rate  of  Sea  Level  Rise  (Boston  Tide  Gauge)  

•  Mean  range  (MHW-­‐MLW)  =  9.5  feet  •  Record  =  1921-­‐2012  (91+  years)  •  Sea  level  rise  =  0.9  feet/100  years  

Historic  Sea  Level  Trends  from  1921  to  2006-­‐2012  (Boston)  

•   Linear  mean  sea  level  rates  (        )  &  95%  confidence  intervals  (mm/yr)  calculated  from  1921  to  recent  years  (2006-­‐2012)  at  the  NOAA  Boston  @de  gauge  sta@on  

•  Values  are  trend  of  en@re  data  period  up  to  that  year  

•  Marshes  accrete  by  trapping  sediment  &  by  organic  ma8er  accumula@on  from  roots  &  rhizomes  

•  Maximum  accre@on  for  Great  Marsh  currently  recorded  ~  6  mm/yr  

Great  Marsh  Sediment  Accre8on  

Courtesy  of  Anne  Giblin,  Marine  Biological  Lab  

Wetland  Types  

Water   Unconsolidated  Shore*  

Salt  Marsh  

Brackish/    Transi@onal  

Freshwater  Wetlands  

Mean  Low  Water  

Mean  Tide  Level  

Mean  High  Water  

Mean  High  Water  Spring  

66%  wetland  Majority  

Dry  Lands  

Eleva@

on  

*includes  silt,  sand,  or  gravel  that  is  subject  to  inunda@on  and  redistribu@on  due  to  the  ac@on  of  water;  substrates  lack  vegeta@on  

Marsh  Migra8on  Limited  by  Development  &  Infrastructure  (Newbury)  

Current   75-­‐Year  Time  Horizon  (2080)    

Net  marsh  impact  =  MHHW  +  4.5  l  sea  level  rise  –  1  l  accre@on  

Marsh  Migra8on  Limited  by  Development  &  Infrastructure  (Salisbury)  

Current   75-­‐Year  Time  Horizon  (2080)    

Net  marsh  impact  =  MHHW  +  4.5  l  sea  level  rise  –  1  l  accre@on  

Marsh  Conversion  to  Unconsolidated  Shore  (Gloucester)  

Current   75-­‐Year  Time  Horizon  (2080)    

Net  marsh  impact  =  MHHW  +  4.5  l  sea  level  rise  –  1  l  accre@on  

Marsh  Conversion  to  Unconsolidated  Shore  (Salisbury)  

Current   75-­‐Year  Time  Horizon  (2080)    

Net  marsh  impact  =  MHHW  +  4.5  l  sea  level  rise  –  1  l  accre@on  

Marsh  Migra8on  Modeling  Resource  www.csc.noaa.gov/digitalcoast/publica@ons/marshesonthemove  

Applying  SLR  Data/Mapping  

•  Great  Marsh  communi@es  are  currently  grappling  with  retrofinng  areas  that  were  developed  before  SLR  and  climate  change  issues  were  recognized  

Applying  SLR  Data/Mapping  

•  Past  experience  

•  What  do  we  know  now?  

•  What  can  we  do  differently?  

•  What  have  we  learned?  

Altera8ons  that  Limit  Natural  Resilience  

•  Development  in  flood  prone  areas  

•  Impervious  floodplains  •  Culverted  streams  and  

rivers  •  Tidal  restric@ons  •  Armored  river  and  coastal  

banks  •  Hardened  shorelines  •  Barriers  to  marsh  

migra@on  

NOAA  photo  

Altera8ons  that  Limit  Natural  Resilience  

•  Development  in  flood  prone  areas  

Altera8ons  that  Limit  Natural  Resilience  

•  Impervious  floodplains  

Altera8ons  that  Limit  Natural  Resilience  

•  Confined  stream  and  river  beds  

Altera8ons  that  Limit  Natural  Resilience  

•  Tidal  Restric@ons  •  Causeways  •  Low-­‐lying  roadways  

Altera8ons  that  Limit  Natural  Resilience  

•  Armored  river  and  coastal  banks  

Altera8ons  that  Limit  Natural  Resilience  

•  Hardened  shorelines  

Altera8ons  that  Limit  Natural  Resilience  

•  Barriers  to  marsh  migra@on  

Photo:  Maine  Sea  Grant  

Altera8ons  that  Limit  Natural  Resilience  

•  Dams  •  Culverts  

Sea  Level  Rising/Climate  Changing:    Key  Resource  Func8ons  to  Consider  

•  A8enua@on  of      flood  waters  •  Ability  of  storm/flood  waters  to  recede  

•  Sediment  availability  and  transport  

•  Energy  dissipa@on  •  Natural  resource  adapta@on  

•  Ecosystem  con@nuity  

AXenua8on  of  Flood  Waters  

•  Limit  impervious  areas  •  Preserve  open  space  in  

developments  •  Incorporate  LID  •  Avoid  hardening  

stream  and  riverbanks  •  Rethink  new  

development  in  flood  prone  areas  

Ability  of  Storm/Floodwaters  to  Recede  

•  Limit  new  impervious/incorporate  LID  and  

•  Address  restric@ons  and  inappropriate  culvert  designs  

•  Dam  removal  •  Preserve  open  space  in  

developments  •  Where  do  floodwaters  

go?  •  Consider  ousall  

loca@ons  

AP  photo  

Reuters  photo  

Sediment  Availability  and  Transport  

•  Unarmored  banks  •  Bioengineering  alterna@ves  

•  Re-­‐nourishment  •  Open  pilings  for  development  

•  Re-­‐vegeta@on  

Energy  Dissipa8on  

•  Protect  dune  stability  •  Sediment  supply  •  Maintain  floodplain  func@on  

•  Sol  bank  stabiliza@on  techniques  

Natural  Resource  Adapta8on  

•  Marsh  migra@on  and  accre@on  

•  Barrier  beach  migra@on    

Ques8ons?  

Julia  Knisel  CZM  Coastal  Shoreline  and  Floodplain  Manager  617-­‐626-­‐1191;  [email protected]  Kathryn  Glenn  CZM  North  Shore  Regional  Coordinator  978-­‐281-­‐3868;  [email protected]