SFWSC_001 WSC soil core and gravimetric measurements from the South Florida Water, Sustainability and Climate Project Study Area, South Florida, in March 2013 Dr. Joseph Smoak University of South Florida 140 7th Avenue South, DAV 258 St. Petersburg, FL 33701 USA 727-873-4078 smoak@mail.usf.edu http://www1.usfsp.edu/coas/espg/faculty/smoak.htm Florida Coastal Everglades LTER Program Florida International University University Park OE 148 Miami, FL 33199 USA 305-348-6054 fcelter@fiu.edu http://fcelter.fiu.edu Joshua Breithaupt College of Marine Science, USF 140 7th Avenue South, DAV 258 St. Petersburg, FL 33701 USA jlbreith@mail.usf.edu http://www.marine.usf.edu/ Collection, Core and data processing 2020-10-01 Determine rates of soil accretion and organic carbon burial using coring methods and radiometric dating in order to understand how mangrove ecosystems might adapt to future sea-level rise and climate change. SFWSC South Florida Water, Sustainability, and Climate Project ecological research water sustainability climate South Florida hydro-economic models management schemes impact economic value ecosystem services climate variability climate change sea level rise adaptive water management economic productivity soil cores gravimetric dry weight loss on ignition bulk density These data are classified as 'Type II' whereby original SFWSC experimental data collected by individual SFWSC researchers are to be released to restricted audiences according to terms specified by the owners of the data. Type II data are considered to be exceptional and should be rare in occurrence. The justification for exceptions must be well documented and approved by the lead PI and Site Data Manager. Some examples of Type II data restrictions may include: locations of rare or endangered species, data that are covered under prior licensing or copyright (e.g., SPOT satellite data), or covered by the Human Subjects Act, Student Dissertation data and those data related to the SFWSC project but not funded by the National Science Foundation (NSF) WSC program (EAR-1204762) and the NIFA Award Number 2012-67003-19862. Researchers that make use of Type II Data may be subject to additional restrictions to protect any applicable commercial or confidentiality interests. For a complete description of the SFWSC Data Distribution and Data User Agreement, please go to SFWSC Data Management Policy: http://eimc.fiu.edu/projects/SFWSC/SFWSC_DataManagementPolicy.pdf. Additionally, two copies of the manuscript must be submitted to the South Florida Water, Sustainability and Climate Project, c/o Dr. Mike Sukop, Department of Earth & Environment, Florida International University, ECS 347, 11200 SW 8th Street, Miami, Florida 33199. South Florida Water, Sustainability, and Climate Project Study Area -81.132 -80.902 25.500 25.354 2013-03-13 2013-03-14 This is a Soil Core Dataset and subsequent data will be appended to this file. Joseph Smoak University of South Florida 140 7th Avenue South, DAV 258 St. Petersburg, FL 33701 USA 727-873-4078 smoak@mail.usf.edu http://www1.usfsp.edu/coas/espg/faculty/smoak.htm South Florida Water, Sustainability, and Climate Project Dr. Mike Sukop Florida International University University Park ECS 347 11200 SW 8th Street Miami, FL 33199 USA 305-348-3117 305-348-3877 sukopm@fiu.edu http://sfwsc.fiu.edu/index.html Florida Coastal Everglades LTER Program Florida International University University Park OE 148 Miami, FL 33199 USA 305-348-6054 fcelter@fiu.edu http://fcelter.fiu.edu Field methods involve collecting sediment using a coring tube. Coring tube Lab methods include collecting all sediment material by extruding the core upwards in stratigraphic intervals. An aliquot is taken from each interval and placed in pre-weighed and dried crucible. Crucibles with aliquots are set to dry for 24 hours in a furnace at 105 degrees Celsius, allowed to cool, and then weighed for dry weight measurements. The process continues for two subsequent rounds in the furnace at 550 degrees Celsius for 3 hours and 1000 degrees Celsius for 1 hour to obtain organic matter and inorganic carbon mass respectively. The interval not used for the aliquot is then frozen, freeze-dried, and homogenized. This material is placed in pre-weighed gamma tubes and weighed. Gamma tube intervals are counted using a germanium detector to detect Radium 226 and Lead 210 levels. Furnace free-dryer mortar and pestle germanium detector Statistical methods include standard deviation and the means. Coastal mangroves of the Shark, Harney, and Broad Rivers Field sampling involves collecting sediment using a coring tube. WSC-1 -80.902 -80.902 25.444 25.444 WSC-2A -80.964 -80.964 25.410 25.410 WSC-2B -80.964 -80.964 25.410 25.410 WSC-3 -80.997 -80.997 25.392 25.392 WSC-4.1 -81.042 -81.042 25.372 25.372 WSC-6.2 -81.097 -81.097 25.354 25.354 WSC-7 -81.021 -81.021 25.418 25.418 WSC-8A -81.060 -81.060 25.423 25.423 WSC-8B -81.060 -81.060 25.423 25.423 WSC-9 -81.100 -81.100 25.431 25.431 WSC-10.1 -81.132 -81.132 25.417 25.417 WSC-11 -81.083 -81.083 25.500 25.500 WSC-12 -81.109 -81.109 25.487 25.487 WSC-13.2 -81.145 -81.145 25.476 25.476 Quality control standards of IAEA (International Atomic Energy Agency) South Florida Water, Sustainability, and Climate Project Mike Sukop South Florida Water, Sustainability, and Climate Project Department of Earth & Environment, ECS 347, University Park, Florida International University, Miami, FL 33199 USA 305-348-3117 305-348-3877 sukopm@fiu.edu Lead Principal Investigator The project’s objectives are to: 1) Develop a hydro-economic model for South Florida that optimizes water allocations based on the economic value of water; 2) Develop new information on the economic value of ecosystem services to be incorporated into model formulations; 3) Test management schemes designed to increase the resilience of water resources to climate variability, climate change, and SLR; 4) Engage stakeholders to improve understanding of the cognitive and perceptual biases in risk management and decision-making; and 5) Develop recommendations for adaptive water management that optimize economic and ecological productivity and foster sustained public support. National Science Foundation (NSF) WSC program (EAR-1204762) and the NIFA Award Number 2012-67003-19862. The SFWSC Study area is located in South Florida. -82.28 -80.03 28.56 24.52 2014-08-26 2017-12-31 SFWSC_001 WSC soil core and gravimetric measurements from the South Florida Water, Sustainability and Climate Project Study Area, South Florida. SFWSC_001 24 ASCII 1 \r\n column , http://fcelter.fiu.edu/perl/SFWSC_public_data_download.pl?datasetid=SFWSC_001.txt uid=FCE,o=lter,dc=ecoinformatics,dc=org read public read SITENAME sitename Name of WSC site text Name of WSC site Date date Collection date datetime YYYY-MM-DD 1 2013-03-13 2013-03-14 Interval interval Collection depth interval data Collection depth interval -9999.0 Value will never be recorded Dry_Weight weight Dry Weight data gram .0001 real -9999.0 Value will never be recorded LOI_1 organic mass loss Percent organic mass Loss on ignition data percent .01 real -9999.0 Value will never be recorded LOI_2 carbonate mass loss Percent carbonate mass Loss on ignition data percent .01 real -9999.0 Value will never be recorded DBD bulk density Dry bulk density data gramsPerCubicCentimeter .001 real -9999.0 Value will never be recorded 499 ratio of two quantities as percent composition (1:100) Short-Term Type I 2014-08-26 WSC 3 intervals 36-37 and 38-39 LOI 2 These SFWSC research data are being managed by the Florida Coastal Everglades LTER Program