Effects of Hydrology on Wading Bird Foraging Parameters

Frequently-anticipated questions:

• What does this data set describe?
  1. How should this data set be cited?
  2. What geographic area does the data set cover?
  3. What does it look like?
  4. Does the data set describe conditions during a particular time period?
  5. What is the general form of this data set?
  6. How does the data set represent geographic features?
  7. How does the data set describe geographic features?
  8. What biological taxa does this data set concern?
• Who produced the data set?
  1. Who are the originators of the data set?
  2. Who also contributed to the data set?
  3. To whom should users address questions about the data?
• Why was the data set created?
• How was the data set created?
  1. From what previous works were the data drawn?
  2. How were the data generated, processed, and modified?
  3. What similar or related data should the user be aware of?
• How reliable are the data; what problems remain in the data set?
  1. How well have the observations been checked?
  2. How accurate are the geographic locations?
  3. How accurate are the heights or depths?
  4. Where are the gaps in the data? What is missing?
  5. How consistent are the relationships among the data, including topology?
• How can someone get a copy of the data set?
  1. Are there legal restrictions on access or use of the data?
  2. Who distributes the data?
  3. What's the catalog number I need to order this data set?
  4. What legal disclaimers am I supposed to read?
  5. How can I download or order the data?
• Who wrote the metadata?

What does this data set describe?

1. How should this data set be cited?

   Dale E. Gawlik Fred H. Sklar, Unknown, Effects of Hydrology on Wading Bird Foraging Parameters.

   Online Links:

   • <http://sofia.usgs.gov/projects/atlss/wading_birds/>

   Other_Citation_Details: This project is a component of the ATLSS program

2. What geographic area does the data set cover?

   West_Bounding_Coordinate: -80.625

   East_Bounding_Coordinate: -80.125

   North_Bounding_Coordinate: 26.875

   South_Bounding_Coordinate: 26.3

   Description_of_Geographic_Extent:

   ponds adjacent to and NW of Arthur R. Marshall Loxahatchee National Wildlife Refuge, Palm Beach County, FL

3. What does it look like?

4. Does the data set describe conditions during a particular time period?

   Beginning_Date: Dec-1998

   Ending_Date: 02-Aug-2003

   Currentness_Reference: Observed

5. What is the general form of this data set?

   Geospatial_Data_Presentation_Form: model

6. How does the data set represent geographic features?
   1. How are geographic features stored in the data set?

      Indirect_Spatial_Reference: ponds NW and adjacent to Loxahatchee NWR

   2. What coordinate system is used to represent geographic features?

7. How does the data set describe geographic features?

8. What biological taxa does this data set concern?

   Taxonomy:

   Keywords/Taxon:

   Taxonomic_Keyword_Thesaurus: none

   Taxonomic_Keywords: multiple species

   Taxonomic_System:

   Classification_System/Authority:

   Classification_System_Citation:

   Citation_Information:

   Originator:

   U.S. Department of Agriculture - Agricultural Research Service (ARS)

   U.S. Department of Agriculture - Natural Resources Conservation Service (NRCS) Department of the Interior - U.S. Geological Survey Department of Commerce - National Oceanic and Atmospheric Administration (NOAA) Environmental Protection Agency (EPA) Smithsonian Institution - National Museum of Natural History (NMNH)

   Publication_Date: 2000

   Title: Integrated Taxonomic Information System (ITIS)

   Geospatial_Data_Presentation_Form: Database

   Other_Citation_Details:

   Retrieved from the Integrated Taxonomic Information System on-line database, <http://www.itis.gov>.

   Online_Linkage: <http://www.itis.gov>

   Taxonomic_Procedures:

   Ponds were initially stocked with known fish. Wading bird feeding flocks were filmed for 5-45 minutes from a vehicle with a Hi-8 video camera and 8-120 mm zoom lens. Specific species studied are Wood Stork, White Ibis, Great Egret, and Great Blue Heron.

   Taxonomic_Completeness: unknown

   General_Taxonomic_Coverage: All fish an birds are identified to the species level

   Taxonomic_Classification:

   Taxon_Rank_Name: Kingdom

   Taxon_Rank_Value: Animalia

   Applicable_Common_Name: animals

   Taxonomic_Classification:

   Taxon_Rank_Name: Phylum

   Taxon_Rank_Value: Chordata

   Applicable_Common_Name: chordates

   Taxonomic_Classification:

   Taxon_Rank_Name: Subphylum

   Taxon_Rank_Value: Vertebrata

   Applicable_Common_Name: vertebrates

   Taxonomic_Classification:

   Taxon_Rank_Name: Class

   Taxon_Rank_Value: Aves

   Applicable_Common_Name: birds

   Taxonomic_Classification:

   Taxon_Rank_Name: Order

   Taxon_Rank_Value: Ciconiiformes

   Applicable_Common_Name: storks

   Applicable_Common_Name: herons

   Applicable_Common_Name: ibises

   Applicable_Common_Name: American vultures

   Taxonomic_Classification:

   Taxon_Rank_Name: Family

   Taxon_Rank_Value: Ciconiidae

   Applicable_Common_Name: storks

   Taxonomic_Classification:

   Taxon_Rank_Name: Genus

   Taxon_Rank_Value: Mycteria

   Applicable_Common_Name: wood storks

   Taxonomic_Classification:

   Taxon_Rank_Name: Species

   Taxon_Rank_Value: Mycteria americana

   Taxonomic_Classification:

   Taxon_Rank_Name: Family

   Taxon_Rank_Value: Ardeidae

   Applicable_Common_Name: bitterns

   Applicable_Common_Name: egrets

   Applicable_Common_Name: herons

   Taxonomic_Classification:

   Taxon_Rank_Name: Genus

   Taxon_Rank_Value: Casmerodius

   Applicable_Common_Name: great egrets

   Taxonomic_Classification:

   Taxon_Rank_Name: Species

   Taxon_Rank_Value: Ardea alba

   Applicable_Common_Name: great egret

   Taxonomic_Classification:

   Taxon_Rank_Name: Genus

   Taxon_Rank_Value: Ardea

   Applicable_Common_Name: great herons

   Taxonomic_Classification:

   Taxon_Rank_Name: Species

   Taxon_Rank_Value: Ardea herodias

   Applicable_Common_Name: great blue heron

   Taxonomic_Classification:

   Taxon_Rank_Name: Family

   Taxon_Rank_Value: Threskiornithidae

   Applicable_Common_Name: ibises

   Applicable_Common_Name: spoonbills

   Taxonomic_Classification:

   Taxon_Rank_Name: Genus

   Taxon_Rank_Value: Eudocimus

   Applicable_Common_Name: white ibises

   Applicable_Common_Name: scarlet ibises

   Taxonomic_Classification:

   Taxon_Rank_Name: Species

   Taxon_Rank_Value: Eudocimus albus

   Applicable_Common_Name: white ibis

   Taxonomic_Classification:

   Taxon_Rank_Name: Superclass

   Taxon_Rank_Value: Osteichthyes

   Applicable_Common_Name: bony fishes

   Taxonomic_Classification:

   Taxon_Rank_Name: Class

   Taxon_Rank_Value: Actinopterygii

   Applicable_Common_Name: ray-finned fishes

   Applicable_Common_Name: spiny rayed fishes

   Taxonomic_Classification:

   Taxon_Rank_Name: Subclass

   Taxon_Rank_Value: Neopterygii

   Taxonomic_Classification:

   Taxon_Rank_Name: Infraclass

   Taxon_Rank_Value: Teleostei

   Taxonomic_Classification:

   Taxon_Rank_Name: Superorder

   Taxon_Rank_Value: Ostariophysi

   Taxonomic_Classification:

   Taxon_Rank_Name: Order

   Taxon_Rank_Value: Cypriniformes

   Applicable_Common_Name: minnows

   Applicable_Common_Name: suckers

   Taxonomic_Classification:

   Taxon_Rank_Name: Family

   Taxon_Rank_Value: Cyprinidae

   Applicable_Common_Name: carps

   Applicable_Common_Name: minnows

   Taxonomic_Classification:

   Taxon_Rank_Name: Genus

   Taxon_Rank_Value: Notemigonus

   Applicable_Common_Name: golden shiners

   Taxonomic_Classification:

   Taxon_Rank_Name: Species

   Taxon_Rank_Value: Notemigonus crysoleucas

   Applicable_Common_Name: golden shiner

   Taxonomic_Classification:

   Taxon_Rank_Name: Superorder

   Taxon_Rank_Value: Acanthopterygii

   Taxonomic_Classification:

   Taxon_Rank_Name: Order

   Taxon_Rank_Value: Perciformes

   Applicable_Common_Name: perch-like fishes

   Taxonomic_Classification:

   Taxon_Rank_Name: Suborder

   Taxon_Rank_Value: Percoidei

   Taxonomic_Classification:

   Taxon_Rank_Name: Family

   Taxon_Rank_Value: Centrarchidae

   Applicable_Common_Name: sunfishes

   Taxonomic_Classification:

   Taxon_Rank_Name: Genus

   Taxon_Rank_Value: Lepomis

   Applicable_Common_Name: common sunfishes

   Applicable_Common_Name: eared sunfishes

   Taxonomic_Classification:

   Taxon_Rank_Name: Species

   Taxon_Rank_Value: Lepomis macrochirus

   Applicable_Common_Name: bluegill

Who produced the data set?

1. Who are the originators of the data set? (may include formal authors, digital compilers, and editors)
   • Dale E. Gawlik

2. Who also contributed to the data set?

3. To whom should users address questions about the data?
   Dale Gawlik
   Florida Atlantic University
   Dept. Of Biological Sciences
   
   777 Glades Road
   Boca Raton, FL 33431-0991
   USA
   

   561 297-3333 (voice)
   561 297-2749 (FAX)
   dgawlik@fau.edu
   

Why was the data set created?

The recovery of wading bird populations has been identified as a key component of successful Everglades restoration. Proposed causes for the decline in wading bird numbers have in common the notion that current hydropatterns have altered the availability of prey. Indeed, food availability may be the single most important factor limiting populations of wading birds in the Everglades.

In the face of conflicting management scenarios, knowing the relative importance of each component of food availability is a precursor to understanding the effects of specific water management regimes on wading birds. Ongoing modeling efforts in south Florida such as the ATLSS program, integrate such information and provide predictive power for future management decisions. Currently, the biggest information gap limiting the wading bird model of ATLSS is foraging success as a function of prey availability. The South Florida Water Management District (SFWMD) is currently conducting a series of experiments aimed at determining the effects of water management on the use of foraging sites by wading birds. Site-use data are available immediately after each experiment and thus allow for quick analyses and write-up. However, also as part of those experiments, we recorded on film, foraging behavior of wading birds at feeding sites with known prey availabilities.

How was the data set created?

1. From what previous works were the data drawn?

2. How were the data generated, processed, and modified?

   Date: Jan-2000 (process 1 of 4)

   Field experiments were conducted in a set of 15 0.2-ha ponds directly adjacent to, and NW of, Arthur R. Marshall Loxahatchee National Wildlife Refuge in Palm Beach County, Florida. Three experiments (water depth and fish density, water depth and fish size, water depth and fish species) were conducted between March, 1996 and March 1997 (contact Gawlik for detailed methods for the water depth and fish density experiment). Each experiment began when ponds were stocked with fish and ended when bird-use nearly ceased (a period of approximately 2 weeks). The maximum number of birds present in a day (all ponds pooled) was approximately 280. For the fish density experiment, 2 treatments were assigned randomly among 12 ponds using a 3x2x2 factorial arrangement (water depth: 10 cm, 19 cm, 28 cm; fish density: 3 fish/m2, 10 fish/m2; replicates: 2). For the fish size experiment, 2 treatments were assigned randomly among 12 ponds using a 3x2x2 factorial arrangement (water depth: 19 cm, 28 cm, 37 cm; fish size: 3 cm, 8 cm; replicates: 2). All ponds were stocked at a density of 8 fish/m2. For the fish species experiment, 3 treatments (water depth: 10 cm, 28 cm; fish density: 4 fish/m2, 16 fish/m2; fish species: bluegill, golden shiner; replicates: 2) were assigned randomly among 12 ponds. This 2x2x2x2 arrangement was more complex because the treatment of high fish density and low water was eliminated from the design.

   For all experiments, ponds were initially stocked at known fish densities; however, those densities decreased quickly as a result of bird predation. Thus, we treated fish density as a continuous variable, which we monitored regularly. We determined fish densities during at least 4 sampling periods based on 1-m2 throw-trap samples (Kushlan 1974). Sampling ceased in individual ponds if no stocked fish were captured in any of the throw-trap samples. Throw-trap samples were distributed evenly within a pond by dividing each pond into 16 10x8 m plots and conducting one throw-trap sample in each plot during each sampling period. A test of sampling efficiency indicated the numbers of fish captured in throw traps represents an average of 55% of the actual fish density in the experimental ponds. All fish density values reported are the number of fish captured in throw traps uncorrected for sampling efficiency. A linear regression model was fitted to the data from each pond such that the response was the number of fish/m2 transformed as y(ln +1). The predicted values were back-transformed to get estimated densities of fish for each pond each day of the experiment with the constraint that no predicted value could be less than zero. The estimated values were used in subsequent analyses of bird foraging success.

   To measure wading bird foraging responses, we filmed feeding flocksfor 5-45 minutes from a vehicle with a Hi-8 mm video camera and 8-120 mm zoom lens. A pilot study indicated that filming from a parked vehicle with cloth-covered windows disturbed birds less than a portable blind. Selection of a flock to film was based on where the largest group of birds were foraging and whether data were lacking for a given treatment combination. Flocks were allowed several minutes to re-settle and resume feeding before filming was initiated. Filming was concluded if flock size changed by more than 25%. Our aim was to get 15 min of film on each bird (with a minimum time limit of 5 min) and a maximum of 15 birds per species per film session. If too few individuals in a film session met that criterion then the minimum time limit was reduced to 2 min. During feeding activities, birds would sometimes travel to the edge of a pond or leave the pond momentarily. Because of the sloped edge of the pond, water depths in those areas were less than treatment levels. Thus, we excluded from time-activity budgets any period where a bird was at the edge or outside of a pond. This criterion resulted in a further shortening of some time-activity budgets.

   Date: 2001 (process 2 of 4)

   Following the field portion of the study, time-activity budgets of focal birds (Altmann 1974) were constructed from videotapes. Tapes were viewed using a Hi-8 VCR connected to a high-resolution video monitor. Data were entered into an Oracle database through a personal computer connected to an interoffice-network.

   To eliminate the possibility of constructing time-activity budgets on the same individual more than once in a session, we did not use as focal birds, individuals of the focal species that appeared in view after the first focal bird left the screen. However, before a focal bird left the field of view, any new birds that appeared could have been used as focal birds. A foraging bout ended when a focal bird left the field of view, became obscured in a flock, or the film session ended (usually about 15 minutes). Capture rates were calculated as the number of prey consumed divided by the length of time (min) of the time-activity budget. Birds that never consumed a prey item were excluded from the analysis.

   From each time-activity budget, we calculated mean prey-intake rate as the response variable. Descriptive statistics such as the mean and standard deviation are presented for each bird species at different treatment levels. This is the format most useful for incorporating parameter values into the ATLSS wading bird model (W. Wolff, Univ. of Miami, pers. commun.). For species of which we had adequate data to conduct statistical analyses, we determined the relative effects of the treatment variables on the response variables. Tests were conducted using PROC GLM in SAS version 6.12 for Windowsâ with water depth, fish size, and fish species as class variables and fish density as a continuous variable. We specified an initial full model containing main effects and interactions. Non-significant (p > 0.05) interactions indicated that a model was over-specified and contained more terms than necessary (Littel et al. 1991, Freund and Wilson 1993). In that case, we constructed a subsequent set of reduced models containing the main effects and significant interactions only.

   Date: 2000 (process 3 of 4)

   Thus far, only the water depth and fish density experiment has been completely analyzed. The results from the water depth and fish size experiment are nearing completion. Key results include the development and refinement of a conceptual model of wading bird foraging behavior. This model provided the rules for quantifying time-activity budgets for all species, including tactile and visual foragers, under the circumstance encountered during the experiments. We calculated prey-intake rates and their associated variability for 2 prey densities and 3 water depths. These numbers can be used to refine parameter estimates currently in the ATLSS wading bird model. We reported foraging costs (giving-up densities of fish) and their associated variability for each species at 3 depths. Note that fish density estimates and giving-up densities were not corrected for sampling efficiency thus resulting in an underestimate of true density. The adjusted numbers can be used in the ATLSS model because it reflects the lower threshold of fish abundance where wading birds will no longer use the site.

   Date: 2002 (process 4 of 4)

   As part of the third experiment, the District (SFWMD) filmed foraging behaviors of wading birds at feeding sites with known fish species, water depths, and fish densities. Current funding levels at the District dictate that the foraging data, which require thousands of hours to extract from the films, will not be available soon enough to be used in the ATLSS wading bird model. This third experiment proposes to examine the effect of fish species, fish density, and water depth. The species of wading birds examined in this study are those in the ATLSS wading bird model: Wood Stork (Mycteria americana), White Ibis (Eudocimus albus), Great Egret (Casmerodius albus) and Great Blue Heron (Ardea herodias). The species of fish being compared are the Bluegill and Golden Shiner, both of which are native to the Everglades. The experimental hypotheses being tested are that fish species, fish density, and water depth, affect wading bird prey-intake rates and capture success.

   Person who carried out this activity:
   

   Dale Gawlik
   Florida Atlantic University
   Dept. Of Biological Sciences
   
   777 Glades Road
   Boca Raton, FL 33431-0991
   USA
   

   561 297-3333 (voice)
   561 297-2749 (FAX)
   dgawlik@fau.edu
   

3. What similar or related data should the user be aware of?

How reliable are the data; what problems remain in the data set?

1. How well have the observations been checked?

2. How accurate are the geographic locations?

3. How accurate are the heights or depths?

4. Where are the gaps in the data? What is missing?

   not available

5. How consistent are the relationships among the observations, including topology?

   not applicable

How can someone get a copy of the data set?

Are there legal restrictions on access or use of the data?

Access_Constraints: none

Use_Constraints:

These data are subject to change and are not citeable until reviewed and approved for official publication.

1. Who distributes the data set? (Distributor 1 of 1)
   Dale Gawlik
   Florida Atlantic University
   Dept. Of Biological Sciences
   
   777 Glades Road
   Boca Raton, FL 33431-0991
   USA
   

   561 297-3333 (voice)
   561 297-2749 (FAX)
   dgawlik@fau.edu
   

2. What's the catalog number I need to order this data set?

   wading bird foraging parameters

3. What legal disclaimers am I supposed to read?

   No warrantees are implied or explicit for the data

4. How can I download or order the data?
   • Availability in non-digital form:

     Contact Dale Gawlik for information and data from this project.

   • Cost to order the data: none

Who wrote the metadata?

Dates:

Last modified: 24-Jan-2007

Metadata author:

Heather Henkel
U.S. Geological Survey
600 Fourth Street South
St. Petersburg, FL 33701
USA

727 803-8747 ext 3028 (voice)
727 803-2030 (FAX)
sofia-metadata@usgs.gov

Metadata standard:

Content Standard for Digital Geospatial Metadata Part 1: Biological Data Profile (FGDC-STD-001.1-1999)

U.S. Department of the Interior, U.S. Geological Survey, Center for Coastal Geology
Comments and suggestions? Contact: Heather Henkel - Webmaster
Generated by mp version 2.8.18 on Wed Jan 24 09:40:00 2007