Plum Island Ecosystem LTER Database

http://ecosystems.mbl.edu/PIE

Acceptance and utilization of PIE-LTER data requires that:

· The Principal Investigator be sent a notice stating reasons for acquiring any data and a description of the publication intentions.

· The Principal Investigator of the data set be sent a copy of the report or manuscript prior to submission and be adequately cited in any resultant publications.

· A copy of any resultant publications should be sent to:

(Principal Investigator)
Ecosystems Center;
Marine Biological Laboratory
Woods Hole, MA 02543

PLUM ISLAND ECOSYSTEM LTER DATABASE

DATA FILE: Data file is available as both an Excel spreadsheet (version 2000) and a text (tab-delimited) file.

LTE-MP-LPPbiomass.xls, LTE-MP-LPPbiomass.txt

DOCUMENTATION FILE: LTE-MP-LPPbiomass.doc

YEAR: 1999-2004

PI: James T. Morris

OTHERS: Robert J. Daoust, Karen Sundberg

BRIEF DESCRIPTION OF DATA FILE: Biomass measurements at the Law’s Point Spartina patens high marsh plot-level marsh fertilization experimental site.

KEYWORDS: Spartina, alterniflora, patens, macrophyte, biomass, LTE-MP-LPP, LTE-MP-LPA, LTE-MP-ORT

SITE TYPE: marsh, long-term experiments

RESEARCH LOCATION:

LTE-MP-LPP = Law’s Point high marsh (Spartina patens dominated) plot-level marsh fertilization experimental site

LATITUDE = 42.75674 N

LONGITUDE = 70.91772 W

EXPERIMENTAL DESIGN AND METHODS: (Note – These methods describe the entire research project at the long-term plot-level marsh fertilization experimental sites.)

There are three ongoing plot level fertilization sites. The first is in the low marsh at Law’s Point along the Rowley River, a monospecific community dominated by Spartina alterniflora. The second is in the high marsh at Law’s Point, a nearly monospecific stand of Spartina patens intermixed with small quantities of S. alterniflora. The third site is in a Typha sp. dominated brackish water marsh on an upstream tributary of the Parker River along Orchard Rd. in Newbury, MA. These experiments are replicates of each other with each site receiving annual additions of 30 M of nitrogen (as NH₄NH₃) and 15 M of phosphorus (as P₂O₅). This is evenly delivered in 6 monthly increments throughout the growing season from May through October. There are 4 treatments per experiment: control (no fertilizer added); nitrogen only (NH₄NH₃ added only), phosphorus only (P₂O₅ added only); and, nitrogen+phosphorus (both NH₄NH₃ and P₂O₅ added).

Above-ground macrophyte biomass is monitored monthly at each experimental site. This is accomplished non-destructively at the low marsh and brackish marsh sites using methods described in Morris and Haskin (1990) for the low marsh, and methods similar to Daoust and Childers (1998) for the brackish marsh. Biomass is monitored destructively using traditional harvest methods in the high marsh experiment.

Porewater is sampled monthly from May through November and bi-monthly from December though April using diffusion samplers. Samples are retrieved from triplicate poles at depths of 10, 25, 50, 75, and 100 cm. Soluble reactive phosphorus, NH₄, S₂, and chloride concentrations are measured in each sample according to standard laboratory protocols (SRP and NH₄ – Strickland and Parson (1972); S₂ – Otte and Morris (1994)).

Changes in sediment elevation are monitored monthly (low and high marsh site) and bimonthly (brackish marsh site) throughout the growing season using a Sediment-Erosion Table.

NOTES AND COMMENTS:

VARIABLE DESCRIPTION:

The following abbreviations are used in the table below:

N = Nitrogen

P = Phosphorous

DATA FILE NAME	VARIABLE	VARIABLE DESCRIPTION	UNITS
LTE-MP-LPPbiomass	Yr	Year of data collection
	Mth	Month of data collection
	Day	Day of data collection
	Plot	Plot number (1-12)
	Trt	C – control, not fertilized N – N fertilized only P – P fertilized only F – N+P fertilized
	Spapat Net	Net dry weight of S. patens harvested from 10x10cm plots	g
	Dead Net	Net dry weight of dead material collected from 10x10cm plots, not sorted to species	g
	Disspi Net	Net dry weight of Distichlis spicata harvested from 10x10 cm plot	g
	Spaalt Net	Net dry weight of S. alterniflora harvested from 10x10cm plot	g
	Saleur Net	Net dry weight of Salicornia europaea harvested from 10x10cm plots	g
	All Species	Total net dry weight of all species harvested from 10x10cm plots	g
	Spapat	Net dry weight of S. patens converted to g/m²	g/m²
	Dead	Net dry weight of dead material converted to g/m²	g/m²
	Disspi	Net dry weight of D. spicata converted to g/m²	g/m²
	Spaalt	Net dry weight of S. alterniflora converted to g/m²	g/m²
	Saleur	Net dry weight of Salicornia europaea converted to g/m²	g/m²
	Tot All Sp	Total dry weight of all species found in harvest plots converted to g/m²	g/m²

CALCULATIONS:

FOR MORE INFORMATION, CONTACT:

Robert J. Daoust

Department of Biological Sciences

University of South Carolina

Columbia, SC 29208

Phone #: (803) 777-9051

mailto:daoust@biol.sc.edu

Karen Sundberg

Baruch Marine Field Laboratory

University of South Carolina

Georgetown, SC 29440

Phone #: (843) 546-3623

mailto:sundberg@biol.sc.edu

OTHER DATA FILES TO REFERENCE:

REFERENCE CITATIONS:

Daoust, Robert J. and Daniel L. Childers. 1998. Quantifying aboveground biomass and estimating net aboveground primary production for wetland macrophytes using a non-destructive phenometric technique. Aquatic Botany 62:115-133.

Morris, James T. and Betty Haskin. 1990. A 5-yr record of aerial primary production and stand characteristics of Spartina alterniflora. Ecology 71:2209-2217.

Otte, M. L. and J. T. Morris (1994). Dimethylsulphoniopropionate (DMSP) in Spartina alterniflora Loisel. Aquatic Botany 48:239-259.

Strickland, T. D. and T. R. Parsons. 1972. A Practical Handbook of Seawater Analysis. Fisheries Research Board of Canada, Ottawa, Ontario, Canada.

DATA AVAILABILITY STATUS:

Type 3

ARCHIVE INFORMATION:

Date of entry: July 24, 2001

Data entered by: Robert J. Daoust, Karen Sundberg

Comments: