Station FLE04524-067

Olsen: 67

Everglades National Park (ENP)
FIU Station: 159

Panel: RegularSeason: Fall
BioChem Date/Time: 2005-11-12 08:00:00
BioChem Crew: Sara Taich/Bobby Lewis
Plants Date: 2005-12-10Aquatic Date: 2005-11-28

SB SB SB
Location NAD83NAD27
Latitude25.6650180825.665034 
Longitude-80.691529-80.691521 
UTM Y (northing) 28384222838625
UTM X (easting) 530938530959

Comments: ps-more like broken up periphyton on top of soil. Collected from cove. Sampled pw and soil at 1020. Sw completed on 11/11/05 by MP/LG. Had to go back and get new Eh probe-air leak that could not be fixed-switched to #6. Did not keep 1/3 of floc binder clip came off of cone (1st replicate). Old Eh probe was #3. Avs difficult to collect lots of plant material in soil. Deep water- could not collect under water- used core tube filled w/water after collected.

Basic

ItemValueDescription
Camera0Digital camera used for field documentation of habitat and soil core
CHLAVOL140volume of surface water filtered for chlorophyll a analysis
Chopper3number of helicopter and associated sampling equipment and supply cache
COND642in situ surface water conductivity, YSI sonde
Cycle7sampling cycle number
DO6.39in situ surface water DO, YSI sonde
FISHNO115number of mosquitofish collected for Hg analysis
FLOCCOLperc66Percent of floc collected from core
FLOCCONT1 tubnumber and kind of container used for floc
Flowsheetflowdescription of surface water flow at sampling site
PERIDOMepiphyticdominant periphyton type
PERIPBnobenthic periphyton collected
PERIPEyesepiphytic periphyton collected
PERIPFnofloating mat periphyton collected
pH7.59in situ surface water pH, YSI sonde
Soiltypepeatsoil type categories, by visual observation
Station159sampling station numbers, unique for 2005, assigned by EPA to the Olsen site numbers; many of the FIU researchers use these numbers as their sample identifiers
Temp26.73in situ surface water temperature, YSI sonde
Turb6.46in situ surface water turbidity, YSI sonde
VEGTYPEwet prairieplant community observed at sampling site
Weather2 lt overcastweather conditions
XNOMINALnominal = sampled within 5 meters of GPS coordinates
shifted = 5-20 meters
station rejected = >20 meters
YSIDEPTH6depth of deployment of probe array in surface water
PlantDate2005-12-10Plant collection date

ItemValue 1Value 2Value 3AverageUnitsDescription
DEPBEDR4.74.64.64.63feetdepth to bedrock, point of refusal with metal probe
FLOCTH12302522.3cmvertical extent (length) of floc layer in core
PWEAgCl-240.5-248.2-242.3-243.67mVpore water, field-measured, in-line Ag/AgCl reference microprobe
PWEh-41.5-49.2-43.3-44.7mVpore water, field-measured, in-line Ag/AgCl reference microprobe corrected to standard Hydrogen electrode by adding 199 mV
SoilCTH101099.7cmvertical extent (length) of soil sample, from soil surface to bottom of core
SoilTHI2.22.152.12.15feetsoil thickness, metal probe to point of refusal
WatDept2.52.452.52.48feetwater depth

BioChemistry

A G G SC SC
ItemValueUnitsQProtocolDescription
AFDWFCFS0.49g/gFIU SERCAsh Free Dry Weight of floc
AFDWSDFS84.33%FIU SERCAsh Free Dry Weight for soil
APASWEE1.3µmole/L*hrJEPA ESATAlkaline Phosphatase Activity in surface water
AVSSDA26mg/kgUJAZC Inc.Acid Volatile Sulfide in soil
BDFCFS0.024g/ccFIU SERCBulk Density of floc
BDSDFS0.1g/cc FIU SERCBulk Density for soil
BRPWEA0.28mg/LEPA SESDBromide in pore water
BRSWEA0.11mg/LEPA SESDBromide in surface water
CHLAFCFS11.973µg/gFIU SERCchlorophyll a in floc, dry weight
CHLASWFB1.8µg/LFIU SERCChlorophyll a in surface water
CLPWEA68mg/LEPA SESDChloride in pore water
CLSWEA65mg/LEPA SESDChloride in surface water
DOCSWD20mg/LFDEPDissolved Organic Carbon in surface water
FDOCPWD27mg/LFDEPDissolved Organic Carbon in porewater
FNH4RPWF5.1mg/LFIU SERCFiltered Ammonia in pore water, recalculated
FNH4RSWF0.037mg/LFIU SERCFiltered Ammonia in surface water, recalculated
FNNRPWFB0.078mg/LFIU SERCFiltered Nitrite + Nitrate in pore water, recalculated
FNNRSWFB0.032mg/LFIU SERCFiltered Nitrite + Nitrate in surface water, recalculated
FNO2RPWF0.012mg/LFIU SERCFiltered Nitrite in pore water, recalculated
FNO2RSWF0.0032mg/LFIU SERCFiltered Nitrite in surface water, recalculated
FNO3RPWF0.066mg/LFIU SERCFiltered Nitrate in pore water, recalculated
FNO3RSWF0.029mg/LFIU SERCFiltered Nitrate in surface water, recalculated
FPWEA0.13mg/LEPA SESDFluoride in pore water
FSWEA0.28mg/LEPA SESDFluoride in surface water
H2SPWEE0.11mg/LJEPA ESATSulfide in pore water
H2SSWEE0.02mg/LUEPA ESATSulfide in surface water
MCFCFS0.51g/g FIU SERCMineral Content of floc
MCSDFS0.16g/gFIU SERCMineral Content of soil
MEHGFCFC1.4ng/gFIU SERCMethyl Mercury in floc
MEHGPBFC0.44ng/gFIU SERCMethyl Mercury in benthic periphyton
MEHGPEFC2.7ng/gFIU SERCMethyl Mercury in epiphytic periphyton
MEHGSDFC0.21ng/gFIU SERCMethyl Mercury in soil
MEHGSWB0.37ng/LJBattelleMethyl Mercury in surface water
pHSDEE6.86 EPA SESDex situ soil pH
SO4PWEA0.14mg/LEPA SESDSulfate in pore water
SO4SWEA13mg/LEPA SESDSulfate in surface water
SRPRPWFB0.0046mg/LJFIU SERCSoluble Reactive Phosphorus in pore water, recalculated
SRPRSWFB6.5µg/LUFIU SERCSoluble Reactive Phosphorus in surface water, recalculated
TCFCFB28% FIU SERCTotal Carbon in floc
TCSDFB47% FIU SERCTotal Carbon in soil
THGFCFC86ng/gFIU SERCTotal Mercury in floc
THGFSFC120µg/kgFIU SERCTotal Mercury in mosquitofish (Gambusia affinis), average of 7 individuals
THGFSSD25µg/kg standard devaition of total mercury in individual mosquitofish for 7 individuals
THGPBFC140ng/gFIU SERCTotal Mercury in benthic periphyton
THGPEFC15ng/gUFIU SERCTotal Mercury in epiphytic periphyton
THGSDFC140ng/gFIU SERCTotal Mercury in soil
THGSWD2.3ng/LFDEPTotal Mercury in surface water
TINAPWFB5.2mg/LFIU SERCTotal Inorganic Nitrogen (calculated) in pore water, recalculated
TINSWFB0.072mg/LFIU SERCTotal Inorganic Nitrogen (calculated) in surface water, recalculated
TNFCFB2.2% FIU SERCTotal Nitrogen in floc
TNRSWFB1mg/LFIU SERCTotal Nitrogen in surface water, recalculated
TNSDFB3.8% FIU SERCTotal Nitrogen in soil
TONSWFB0.96mg/LFIU SERCTotal Organic Nitrogen (calculated) in surface water, recalculated
TPRFCFB230µg/gFIU SERCTotal Phosphorus in floc, recalculated
TPRSDFB230µg/gFIU SERCTotal Phosphorus in soil, recalculated
TPRSWFB5.8µg/LFIU SERCTotal Phosphorus in surface water, recalculated
WCFCFS0.97g/gFIU SERCWater Content of floc
WCSDFS0.91g/g FIU SERCWater Content of soil

Plants

A A

All sites sampled had 1 transect that ran south to north, with the southern end sampled 5 m due west of the biogeochemical sampling point. If a second “habitat type”, as based on visual assessment of the botanist in the crew, was located within a 50 m radius of the first sampling point, a second transect was done in that habitat.

Left Panorama

LP4 LP3 LP2 LP1

Right Panorama

RP1 RP2 RP3 RP4

Transects

PT ST

The number in each plant column records the number of quarter-meter-squared quadrats in 5 (1-meter-squared) quadrats in which that species was found at any given site.The 5 (1-meter-squared) quadrats were distributed to the right and left every 2 m along the 10 m transect.If the plant was not present, the cell has a 0;if the plant was present in every quarter-meter-squared quadrat, the number in the cell is 20.

ItemTransect 1Transect 2FamilyScientific NameCommon Name
SagiLanc10AlismataceaeSagittaria lancifoliaBulltongue arrowhead, Lanceleaf arrowhead
CladJama020CyperaceaeCladium jamaicenseSaw-grass, Jamaica swamp sawgrass
EleoCell2016CyperaceaeEleocharis cellulosaGulf Coast spikerush
UtriGibb202LentibulariaceaeUtricularia gibbaCone-spur bladderwort, Humped bladderwort
UtriPurp20LentibulariaceaeUtricularia purpureaEastern purple bladderwort
PaniHemi170PoaceaePanicum hemitomonMaidencane
PaspGemi110PoaceaePaspalidium geminatumEgyptian paspalidium

Exotics

In the 2005 R-EMAP sampling invasive exotic plant species were surveyed in two ways. The first survey was done on the helicopter fly-in to the GPS site and covered the general area of the site, while the second was a 360° site survey from the helicopter pontoons after landing and covered the immediate area of the site. In the aerial (A) helicopter survey we looked for the presence of six invasive exotic species (Casuarina spp., Lygodium microphyllum, Melaleuca quinquenervia, Neyraudia reynaudiana, Pennisetum purpureum and Schinus terebinthefolius), as well as the presence of cattail (Typha domingensis). In the survey from the helicopter floats (F) we recorded the presence of any exotic seen; the only additional exotic species observed from the floats was Salvinia minima. In both surveys we recorded the presence of species and quantified their abundance using categories for the number of individuals. The categories used were 0 (i.e., not present), 1 individual, 2 - 10 individuals, and > 10. We did not find Neyraudia reynaudiana at any site, so this species was not included in the database.

ItemAbundanceScientific NameSource
CasuSp_A0Casuarina speciesaerial fly-in
CasuSp_F0Casuarina speciesfloats
LygoMicr_A0Lygodium microphyllumaerial fly-in
LygoMicr_F0Lygodium microphyllumfloats
MelaQuin_A0Melaleuca quinquenerviaaerial fly-in
MelaQuin_F0Melaleuca quinquenerviafloats
PennPurp_A0Pennisetum purpureumaerial fly-in
PennPurp_F0Pennisetum purpureumfloats
SalvMini_F0Salvinia minimafloats
SchiTere_A0Schinus terebinthefoliusaerial fly-in
TyphDomi_A> 10Typha domingensisaerial fly-in
TyphDomi_F0Typha domingensisfloats

Vegetation Map

Aquatic

As part of the EPA‘s R-EMAP Phase III wet season sampling, 54 sites (designated by Olsen numbers/station numbers) spanning the Greater Everglades were sampled for aquatic fauna in November and December 2005. Densities of small fish and large macroinvertebrates were quanitifed using a standardized throw-trap methodology, and macroinvertebrate infauna were enumerated from periphyton cores and floc samples. Community compositions and wet weights were recorded for throw-trap samples, and fish and crayfish lengths were measured. Counts and community compositions were recorded for infauna and scaled according to substrate samples (g AFDM and/or mL of periphyton or floc). Finally, stable isotope analysis was conducted on a subset of the fauna. These data were then used to address questions about consumer densities, community structure, and food webs along hydrological (disturbance) and productivity gradients.

Three throw-traps replicates were deployed per station.

TypeItemThrowtrap 1Throwtrap 2Throwtrap 3UnitsScientific NameCommon NameNote
PeriCover331%percent of trap area covered by periphyton
PeriVolume210030002300mlbiovolume of periphyton and submerged plants
PlantCover101210%percent of water surface covered by vegetation
PlantHt431929cmplant height from water surface
WaterDepth798580cm
Fish0TotalFish14169
Fishfunchr110Fundulus chrysotusGolden topminnow
Fishgamhol652Gambusia holbrookiMosquitofish
Fishhetfor244Heterandria formosaLeast killifish
Fishjorflo010Jordanella floridaeFlagfish
Fishlucgoo553Lucania goodeiBluefin killifish
Invertebrates0TotalInv203129
Inverterbatescelepo500Celithemis eponinaDragonfly larva
Inverterbatescoenag010family CoenagrionidaeDamselfly larvae
Inverterbatesepheme010order EphemeropteraMayfly larvae
Inverterbateslibnee100Libellula needhamiDragonfly larva
Inverterbatespalpal142326Palaemonetes paludosusGrass shrimp
Inverterbatespelfem021Pelocoris femoratusAlligator flea
Inverterbatesplaspp001Planorbella spp.Planorbellid snail, rams-horn spp
InverterbatesprofalM041Procambarus fallax MCrayfish (male)
Vegetationbaccar0085percent of floating mat volumeBacopa carolinianawater hyssop
Vegetationclajam3800stem countsCladium jamaicensesaw-grass
Vegetationelecel98172122stem countsEleocharis cellulosaSpikerush
Vegetationpanhem022stem countsPanicum hemitomonmaidencane
Vegetationpasgem026stem countsPaspalidium geminatumEgyptian paspalidium
Vegetationsagspp005stem countsSagittaria spp.arrowhead
Vegetationutrpur550stem countsUtricularia purpureapurple bladderwort