ABLE 2002
Louisiana State University
June 11-14, 2002

Conference Schedule
Major Workshop Schedule
Pre-Conference Field Trips
Post-Conference Field Trips
Conference Registration Form (link to LSU server)
Housing Information and Registration
Getting to LSU
ABLE Membership Information and Renewal
Social Events
Weather

Baton Rouge

Baton Rouge is the capital of Louisiana. In 1699, Iberville named Baton Rouge after the red stick he saw on a bluff overlooking the Mississippi River. It is the fourth largest port city in the nation with more than 600,000 people living in the metropolitan area. Baton Rouge is home to some of the finest restaurants in the United States featuring fresh seafood, French, Cajun, Creole, and traditional Southern cuisine. Located 75 miles Northwest of New Orleans Baton Rouge has a subtropical climate. The weather is consistently warm from May to September. The average annual temperature is 68 degrees (95 degree summer temperature). Precipitation is reasonably well-distributed and ample throughout the year. The average annual precipitation is 55 inches.

Louisiana State University

Since 1860, Louisiana State University has served the people of Louisiana, the region, the nation, and the world through extensive, multipurpose programs encompassing instruction, research, and public service. LSU is:

  • the flagship institution of the state of Louisiana
  • one of only 25 universities nationwide holding both land-grant and sea-grant status
  • a community of more than 34,000 faculty, staff, and students from every state and more than 120 countries
  • home of the "Fighting Tigers" and their Bengal tiger mascot, Mike V

The mission of Louisiana State University and A&M College is the generation, preservation, dissemination, and application of knowledge and cultivation of the arts for the benefit of the people of the state, the nation, and the global community.

More than 31,000 students are enrolled in curricula leading to bachelor's degrees in 71 major fields, master's degrees in 75 major fields, and doctoral degrees in 54 major fields. Despite its large enrollment, the University maintains an impressive record of small-class teaching. Two-thirds of the classes offered in any semester have fewer than 30 students and fewer than 6 percent of all classes have 100 or more students. Of the introductory survey courses (1000-level courses), just 3 percent have 100 or more students.

Research at LSU is conducted by faculty in academic departments and through institutes, offices, centers for advanced studies, and other special units. At any given time, more than 2,000 sponsored research projects are under way at the University. In addition, faculty members pursue numerous research projects that are not sponsored by outside agencies, as do many graduate students. Other research and instructional programs are undertaken through the LSU Agricultural Center's Louisiana Agricultural Experiment Station


Department of Biological Sciences

The 2002 ABLE Workshop/Conference will be hosted by the Department of Biological Sciences. The Department was recently formed from the merger of the Departments of Biochemistry, Microbiology, Plant Biology, and Zoology & Physiology. This organizational change is designed to foster cross-cutting, interdisciplinary research initiatives by removing administrative and phylogenetic constraints and by encouraging interaction among our diverse faculty, postdoctoral fellows, and students. Biological Sciences is now the largest academic unit on campus based on the number of tenure-track faculty (55). We have over 1,000 undergraduate majors and approximately 120 graduate students in the department. The Department of Biological Sciences is a member of the Louisiana Agricultural Experiment Station and several of its members have joint appointments with the Experiment Station. Along with the merger of departments we have also recently expanded in terms of space. Recently a seven-story annex to the current Life Sciences Building was completed, increasing our building space by 50%.


Conference Schedule

Tuesday, 11 June
9:30am Board Meeting
1:00pm-5:00pm Pre-Conference Field Trips
6:00pm-8:00pm Opening Reception at the LSU Faculty Club

Wednesday, 12 June
8:30am-9:00am Daily Pre-lab Meeting
9:00am-12:00noon Major Workshops 1-7
12:00noon-2:00pm Lunch and Guest Speaker
2:00pm-5:00pm Major Workshops 1-7
6:00pm- ?? Optional Dinner Boutin's

Thursday, 13 June
8:45am-9:00am Daily Pre-lab Meeting
9:00am-12:00noon Major Workshops 8-14
12:00noon-2:00pm Lunch and Guest Speaker
2:00pm-5:00pm Major Workshops 8-14
5:30pm-6:30pm Business Meeting I

Friday, 14 June
8:15am-8:30am Daily Pre-lab Meeting
8:30am-11:30am Major Workshops 15-17 and Mini Workshops
11:30am-2:30pm Lunch and Business Meeting II
2:00pm-5:00pm Major Workshops 15-17 and Mini Workshops
6:00-9:00pm Conference Dinner

Saturday, 15 June
Post-Conference Field Trips


Major Workshops

Wednesday, 12 June

1 - Inquiring About the Environment: A Service Learning Project
Kimberly Keller, Christopher Tracy, and Charlene Waggoner
This project combines extended inquiry w/service learning. Participants will use basic soil sampling techniques to do a sit analysis. They will provide a report to the community partner on the suitability of the site for its intended purpose.
Category: Ecology | Level: Introductory

2 - Effects of Salinity on Metabolic Rate in Black Mollies
Christopher Beck and Lawrence Blumer
The exercise examines the metabolic costs of osmoregulation in a freshwater fish, the black molly (Poecilia latipinna). The laboratory exercise could be used in either an upper-level ecology or physiology course. For the experiment, students evaluate the metabolic rate of a fish at a particular salinity by measuring a decrease in oxygen concentration in water in a sealed chamber over a ten minute period. Metabolic rate then is determined by the slope of linear regression of oxygen concentration versus time. By measuring metabolic rate at different salinities, students can examine the metabolic cost osmoregulation. The current exercise could be expanded by examining the cost of osmoregulation for fish acclimated to different salinities.
Category: Ecology | Level: Upper

3 - Identification of Bacterial Species
Kim Christopher
The laboratory exercise is designed to introduce first-year cell biology students to several standard microbiological tests that can be used in an initial identification of an unknown bacterial species. In the first week, students are provided with a mixed bacterial culture containing 3 species, whose identity is “unknown” to the students. Students use the streaking technique to isolate individual colonies of the 3 species. In the following week, students examine the colonies of the 3 “unknown” bacteria to determine colony morphology. Additionally, students perform the Gram stain on cells of the isolated colonies to determine the Gram reaction, cell morphology, and cell size of the “unknown” bacteria. Students are also supplied with the test results of four morphological / biochemical / nutritional tests to learn more about the 3 “unknown” species. A comparison is then made with the same test results of 6 bacterial species, whose identities are “known”, in an attempt at an initial identification of the 3 “unknown” bacteria in the mixed bacterial culture. The morphological / biochemical / nutritional tests that are included in this lab were chosen based on their relevance to the theoretical material taught in the lecture component of the course.
Category: Cell Biology | Level: Introductory

4 - Forensic Biochemistry: DNA Testing of Plant Material
Anna Wilson
The story is that there was a murder in an Indiana cornfield. Samples of soil and soda pop were recovered from the victim’s car and shoes. Last week we tested the soda pop found with the body and with the suspects. This week we are isolating DNA from seeds that were found on the shoes. Two different ecotypes of a weed grow in different areas of Indiana. The “Columbia” ecotype grows in the upper half of the state and the ecotype “Lansberg” grows in the southern third of the state.  The two ecotypes show differences that can be detected using the polymerase chain reaction (PCR). DNA is extracted from the seedlings using a CTAB DNA isolation procedure then the DNA is precipitated using isopropanol. After drying the DNA it is dissolved in buffer then specific regions are amplified by PCR. The PCR products are analyzed by gel electrophoresis and the results used to determine which suspect was in the same area as the victim.
Category: Genetics | Level: Intermediate

5 - Joe’s Jungle and the Hidden Jungle
Charlene Waggoner and Kimberly Keller
Students study Joe’s Jungle to learn how to sample biodiversity and do simple statistical measures. They then explore the reasons for biodiversity differences and test their hypothesis using microbes as the test case.
Category: Diversity | Level: Introductory

6 - Investigating the Diversity of Parasitic Protozoa Using Gregarine Parasites of Invertebrates
Charlotte Omoto
This laboratory is adopted from classic parasitology laboratory using live material. Gregarines deserve attention for many reasons. Gregarines are protozoan parasites in the phylum Apicomplexa, the group includes many protozoan parasites of medical and veterinary importance such as malaria, toxoplasma, coccidian, etc. Because Gregarines parasitize invertebrates, the hosts are easier to obtain, maintain and use in the classroom. Commonly used hosts such as earthworms and mealworms are available in bait shops and pet stores and are usually highly infected. Gregarine life cycle includes a large vegetative stage in the host that is visible under the dissecting microscope and often are motile. The large white gametocysts, often expelled from the host with feces, are easily visible under the dissecting microscope. If the cysts are allowed to sporulate, the dehiscence and morphology of the sporocysts characteristic of the species. Much of this is easily observed by students. For example, the trophozoites are large and motile in mosquito larvae intestine. The gametocyst appear as “pearls among poop” of beetles. The dehiscence of gametocyst of Eleodes sp Gregarines appear as miniature “puffballs”. Even with the few commonly used host species, diversity among protozoan parasite is evident.
Category: Diversity | Level: Intermediate

7 - Investigating Animal Respiration with Electronic Probes
Robert Hodson and John Acuff
Invertebrates, represented by Madagascar cockroaches, are used to determine the effect of environmental variables on whole organism respiration rate. One variable is temperature, from which a thermal quotient (Q10) may be obtained.  Another variable is stage of a 12L:12D photoperiod. Respiration rate is obtained by measuring the carbon dioxide concentration of air exiting from an enclosed animal chamber with an electronic probe (infra-red gas analyzer) marketed by Qubit Systems, Inc. Analog signals (voltages) are converted to digital and captured with a laptop computer running Logger Pro (Vernier Software and Technology). The equipment is suitable for study of other variables and other organisms; invertebrates are selected primarily to avoid having to deal with local animal use regulations. The workshop will be designed for 10 workstations with 2 persons at each. Other configurations can be accommodated, e.g., fewer workstations with 3 persons at each and up to 18 workstations with 1 person each.
Category: Physiology | Level: Introductory

Thursday, 13 June

8 - Saving the Commons: A Simulation for Understanding the Need for Collaboration to Resolve Environmental Issues
Mary Schaeffer, Jon Cawley, and Virginia W. Gerde
This exercise is based on “The Tragedy of the Commons” by Garrett Hardin, a classic article on the use of shared resources published in Science in December 1968. The simulation was created by Dr. Robert S. Dooley of Oklahoma State University and Gerald Fryxell of The Hong Kong Poly University, both in the Management Departments of their respective universities. It demonstrates the role of collaboration and trust in solving environmental problems. There is much concern about the impact of industrial pollution on the quality of our air and water, as well as the damage to our forests through acid rain. These are shared resources for all our citizens, and a decrease in any of these diminishes the quality of all of our lives. These shared resources are actually shared commons, available for all to use, or abuse. Our nation has many such commons, including the national parks, grazing lands in the west, wildlife reserves, watersheds, and the air above us.  Virginia Tech uses this exercise in the freshman biology lab class as an ecology exercise. in an effort to give them some information on issues of importance to their lives, issues for which they will have to find solutions in the years ahead. The exercise uses between five and eight groups of students as managers of different industries that border on a lake and use the water resources of the lake. The profits are directly related to the quality of the water available in the lake, but each industry also releases a number of toxic pollutants into the lake. These companies chose to locate their plants at this location because the country, Kivulini, does not have any regulations on how much or what type of waste is dumped into the lake. The problem for each group of students is how to profitably operate their industrial plant when the process is dependent on the lake as a common resource shared by other industries and the community. This exercise clearly demonstrates industries have to cooperate with each other and the town affected by the industries in order to maintain a clean water resource so all companies may make a profit over the long term and provide a safe and healthful environment in which all stakeholders concerned live. It also demonstrates the basic problems of cost and profitability companies must deal with in addition to environmental concerns. Role playing as industry managers makes the corporate decision making process more realistic.  Though this exercise was developed for business classes, it is important for idealistic biologists and students to understand how companies operate and what motivates big business, in order that they can effectively work with companies to gain their own goals of a cleaner, more stable environment.
Category: Ecology | Level: Introductory

9 - Isolation and Spectral Characterization of Chlorophyll-Protein Complexes from Thylakoid Membranes
William E. Dietrich, Jr.
Thylakoid membranes are isolated from leaf tissue by centrifugation. After determining the chlorophyll concentration in a membrane suspension, the membranes are solubilized with a detergent, SDS. Chlorophyll-protein complexes are separated by polyacrylamide gel electrophoresis. The green complex patterns and colors are discussed.  Absorbance spectra of each complex are measured while still in the gel. This will allow the association of each complex with either photosystem 1 or photosystem 2.
Category: Cell Biology | Level: Intermediate/Upper

10 - Determination of DNA Methylation by Restriction Enzyme Digest
James L. Eliason
The students predict the sizes of DNA fragments generated from digestion of methylated and unmethylated phage lambda DNA with the restriction enzyme Cla I. They perform the digestion and electrophoresis, compare their predictions to the results, and determine which of two DNA samples is methylated.
Category: Genetics | Level: Intermediate

11 - Restriction Mapping of Plasmid Vectors
Marianna Tran
The workshop presents one semester-long introductory molecular biology laboratory designed for freshmen and sophomore students who are majoring in biology. This course provides students with a laboratory experience similar to one they would have if they were working in a research laboratory. During the semester students complete one scientific project that involves isolation of a large quantity of pure GFP from jellyfish Aequorea victoria in order to crystallize the protein and understand how it emits light. Similarly to “real” research, students have to solve a problem or correctly perform certain procedures each laboratory session in order to proceed to the following week’s experiments.  Throughout the semester students learn a number of molecular biology techniques including restriction mapping, bacterial transformation, plasmid isolation, chromatography, agarose gel electrophoresis, PAGE, and Western blotting. All of these techniques are used for cloning, expression, purification and analysis of GFP. Furthermore, this laboratory course does not provide students with previously developed protocols; rather, they are asked to use the available databases and programs on the Internet for designing experiments and writing protocols. Considering the time limitation of the workshop I would like to experimentally present only the first part of this laboratory course which involves using restriction mapping for identification of plasmid pGLO containing the gene for GFP. In addition, I can also provide all written materials for the rest of the experiments if the participants request them.
Category: Genetics | Level: Introductory

12 - Microscopy of Natural and Experimental Biofilms in the Undergraduate Laboratory: A Simple Collection Kit with Multiple Applications
Margaret C. Henk
With the use of a simple field kit, air/water interface biofilms are easy to collect intact from nature or from laboratory aquatic systems. These biofilm microbes are ubiquitous, though varied in the environment; unlike routine undergraduate laboratory bacteria species, they are interesting to view in the microscope. Due to their physiological requirements, they tend to form two-dimensional consortia, and they are spatially arranged in ways that reflect their relationships with each other. Such naturally occurring planar constructions are well suited to microscopical examination for discovery and research applications at many levels in the undergraduate laboratory. A simple, inexpensive, and user-friendly kit has been designed for the immobilization and collection of two-dimensional biofilms, particularly those of the air/water interface. A key feature of the kit is a thin film collodion which overlies the examination substrate (e.g., microscope slide and provides essential adhesion of the unaltered biofilm. Undergraduate students can easily construct these kits during part of a lab period. The completed kit can provide instantaneous and simultaneous collection of a sample for routine light microscopy (LM) in the average undergraduate laboratory, and for advanced protocols using fluorescence LM or even transmission electron microscopy (TEM). After collection a simple 2-3 minute treatment in the student lab prepares the sample for examination. Microscopy of the collected biofilm reveals size, shape and spatial arrangement differences among types of bacteria living together in this microhabitat and can also help elucidate relationships among them. Biofilms from different sites or from different experimental conditions can be compared. If fluorescence optics are available, DNA localization and specific cell probes can be used for cell identification. The extent to which advanced correlative microscopy is pursued can be determined by class size and level. With appropriate instruction and supervision undergraduate students can efficiently and successfully use instrumentation normally found in college microscopy labs to discover important concepts in microbial ecology. Use of such a simple but rewarding hands-on environmental activity inspires interest while encouraging development of technical and scientific skills.
Category: Diversity | Level: Introductory

13 - Cancelled

14 - Teaching Workshop for Graduate Students
Ann Lumdsen, and Judith Morgan
Each year since 1999 ABLE has provided a forum for presentation, discussion, and sharing of ideas concerning the use of undergraduates and graduate students to run labs and teach in the Departments of Biological Science. There have been lively films, games, examples, and discussions of the many university training sessions and/or workshops to Train Graduate Teaching Assistants to handle students, labs, and even teaching assignments. This year we will offer four other areas of discussion for you. Ethics in the classroom; a powerful subject in most colleges and universities, we will offer a skit to lead into a discussion on ethics and how easy it is for faculty to cross the line with students concerning ethics. Also we will offer a skit on the first day of class or the first day teaching. Each of you can certainly add a suggestion or warning to this topic and we welcome your experiences with the first day teaching also. And then we will move to an exercise on performing investigative labs and how to develop and set up these labs for your teaching  assistants. And we will address plagiarism and grading to follow up on last year's workshop.
Category: Other | Level: Introductory

Friday, 14 June

15 - Comparative Demographic Study of Human Populations
Ralph Prezler
This exercise is designed to help students learn to evaluate and discuss the social implications of biological topics. Participants will use demographic principles of population ecology as they investigate the socio-economic status of human populations. Each small group of participants will collect demographic data about a country of their choice from The Population Reference Bureau and the U.S. Census Bureau's International Data Base. They will then graph the age structure and population growth of their chosen country. After collecting and organizing this demographic information, each group will prepare a poster describing their country. In a poster session, participants will evaluate relationships between demographic variables across countries. Lastly, participants will discuss relationships between socio-economic factors and demographic characteristics of the countries which they have investigated.
Category: Ecology | Level: Introductory

16 - Quorum Sensing Bioassay
Anna Szenthe
Bacteria utilize a low molecular weight chemical belonging to the N-oxo-acylhomoserine lactone (HSL) family for communication by quorum sensing. In this exercise we observe HSL production in wild type Agrobacterium tumefaciens. with the aid of a reporter strain (a modified A. tumefaciens strain with a lacZ reporter gene). The reporter strain produces b-galactosidase in response to exogenous HSL generated by the test organism. This production is first measured qualitatively by observing X-gal cleavage as indicated by the appearance of blue color in a soft agar overlay, and then quantitatively by employing the lactose analog ONPG (ortho-nitrophenyl-galactopyranoside) in a spectrophotometric assay.
Category: Cell Biology | Level: Intermediate

17 - DNA Profiling by Mutliplex PCR Amplification and Genotype Determination by Reverse Dot-Blot Hybridization to Sequence-Specific Oligonucleotide Probes
Ralph J. Rascati
Human DNA profiling has applications in paternity testing and forensics. This workshop provides participants with the opportunity to gain first-hand experience with procedures that are currently used to extract DNA from their own cells, quantify the DNA in the extract, perform a multiplex PCR amplification of several loci used in forensic analysis, and determine their own genotype at several loci. In addition, methods for analyzing the results relative to existing population databases will be presented. The exercise is presented in the context of a laboratory course in Forensic DNA Analysis that presents students with a variety of techniques that have been and/or continue to be employed in forensic laboratories.
Category: Genetics | Level: Upper

18 - Learning Basic Plant Morphology by Deriving a Vegetative Key
Peter Minchin
Many students find it difficult to learn the many technical terms that are used to describe the external vegetative structure of vascular plants. Rather than trying to memorize the terms by looking at pictures or specimens in the lab, I have found that it is much more effective to have students learn the terminology as they apply it to the task of keying out plants that grow around the campus. I developed a vegetative key to most of the trees and shrubs that are commonly planted on the LSU campus. Before the lab, a selection of trees and shrubs within walking distance of the lab are tagged with alphabetic letters. Students are given a brief introduction to the exercise in the lab, then I accompany them as they go around and key out each labelled plant. They can check their identification with me and, if they get it wrong, go back and work out where they made a mistake in the key. At the end of the key, I include a glossary of all terms used in the key and also an alphabetic list of the species, with interesting information about each plant, such as its common name, origin (many are introduced) and human uses.
Category: Diversity | Level: Introductory

Workshops by category:

  Category      Workshop number  
 Cell Biology     3, 9, 16
 Diversity   5, 6, 12, 18
 Ecology   1, 2, 8, 15
 Genetics   4, 10, 11, 17
 Physiology   7
 Other   14

Workshops by level:

   Workshop level  

Workshop number

 Introductory 1, 3, 5, 7, 8, 11, 12, 14, 15, 18
 Intermediate 4, 6, 9, 10, 16
 Upper 2, 9, 17


Pre-Conference (Tuesday) Field Trips

On-Campus: (campus map)

1 - Louisiana State University Museum of Art
The Museum of Art was established in 1959 by an anonymous donor who was interested in art works representing British and American cultural exchanges from the seventeenth century to the present. The Memorial Tower on Louisiana State University campus was adapted to suit the needs of the newly named Anglo-American Art Museum and was opened to the University community and the general public in 1962. The Museum was renamed LSU Museum of Art in 1991. The Museum of Art possesses one of the largest university affiliated art collections in the South and serves as an important cultural force in Louisiana.

2 - LSU Museum of Natural Science
The LSU Museum of Natural Science was founded in 1936, when its first director, George H. Lowery, Jr., assembled a few study specimens of birds in a classroom in Audubon Hall. Since its move to Murphy J. Foster Hall in 1950, the museum has continued to expand and is currently one of the nation's largest natural history museums, with holdings of over 2.5 million specimens. As the only comprehensive research museum in the south-central United States, the LSU Museum of Natural Science fulfills a variety of scientific and educational roles.

Off-Campus: (Trips depart from Life Sciences Annex Lobby at 1:00pm)

3 - Magnolia Mound Plantation
A French Creole Plantation, circa 1791 located in Baton Rouge, Magnolia Mound is a rare example of the architectural influences of early settlers from France and the West Indies. One of Louisiana's oldest wooden structures, Magnolia Mound looks exactly as it did in the 1800's and remains an example of bousillage construction. It is listed on the National Register of Historic Places and Accredited by the American Association of Museums

4 - Bluebonnet Swamp
Bluebonnet Swamp Nature Center is a 101-acre facility dedicated to conservation, education, recreation and tourism. Venture into the nearly pristine 65-acre cypress-tupelo swamp and a magnolia-beech upland hardwood forest with dramatic ravines. The two ecosystems are linked by a series of trails and boardwalks constructed to allow visitors the opportunity for exploration and magnificent views of the site. Many bird species make their homes in the swamp, including Yellow-crowned Night Herons, Prothonatory Warblers and a variety of owls and hawks. Raccoons, foxes, bobcats, snakes, turtles and alligators are also known to inhabit the site. The Nature Center building is home to Louisiana's largest duck hunting decoy collection and also houses a magnificent collection of carved wooden animals.

5 - Old State Capital


Post-Conference (Saturday) Field Trips

7 - Avery Island and Swamp Tour

Begin the day traveling West from Baton Rouge to the heart of "Cajun Country". Tour the Achtafalaya Basin. Continue on to Avery Island which is located on a salt dome. This is the home of Tabasco and a great birding and nature location. Finish the day in Breaux Bridge dinning on local cuisine.

The home of world-famous TABASCO® Sauce, Avery Island lies about 100 miles southwest of Baton Rouge. It's one of five salt dome islands rising above the flat Louisiana Gulf coast. Geologists believe these mysterious elevations were created when a saltwater ocean covering what is now Texas, Louisiana, and Mississippi evaporated leaving behind a vast sheet of salt. Over eons this salt layer was covered by thousands of feet of alluvial sediment, the pressure of which pushed numerous salt domes straight up. In five places these domes actually pushed up the topography. Today, these five coastal islands sit above and are surrounded by the swamps and marshes of south Louisiana. Avery Island stands the highest at 152 feet above sea level. Under the Avery/McIlhenny family's careful management, Avery Island has remained a natural paradise, inhabited by exotic plant and animal species from throughout the world. The wildlife population expands each spring when thousands of snowy white egrets and other migratory water birds return to Bird City. This vast, protected rookery owes its existence to Edward Avery McIlhenny, second son of Edmund McIlhenny who invented TABASCO® Sauce.

8 - Historic Home Tour: Historic St. Francisville, LA

St. Francisville is located on the Mississippi River approximately 35 miles north of Baton Rouge. We will travel with our tour guide to this area which has a wealth of historic plantations, churches and gardens. The town has been designated as a historic significant town with over 50 buildings included in the National Register. The area is also known for where John James Audubon created many of his Birds of America works of Art. Our tour will include Rosedown Plantation, Oakley House at Audubon State Historic Site, Grace Episcopal Church, a walking tour around the St. Francisville main street area, and time permitting, Port Hudson on our way back to Baton Rouge. Lunch at the Myrtle's Plantation's restaurant; (cost not included in the trip price). Bring a hat and sunscreen and wear comfortable walking shoes.

9 - New Orleans I

Travel to New Orleans and tour the Audubon Zoo and Aquarium of the Americas. End the day in Jackson Square for dinner. Cost of meals not included in this trip.

Take a bus to New Orleans, tour the Audubon Zoo and then take a boat ride to the Aquarium of the Americas. The zoo consists of 53 acres where animals and cultures come together amidst a graceful turn-of-the-century neighborhood. The Aquarium of the Americas is located on the Mississippi River bank in scenic Woldenberg Riverfront Park. The acclaimed animal collection includes thousands of fish, reptiles and birds, including many creatures native to Louisiana waters, from rare paddlefish and swamp-dwelling alligators, to Gulf sea turtles that are among the world's most critically endangered animals. With more than a million gallons of water and more than 15,000 animals, the Aquarium of the Americas is ranked one of the top five in the nation.

10 - New Orleans II

Travel to New Orleans and enjoy the day on your own sightseeing around the French Quarter and Jackson Square. Arrive in New Orleans in time for coffee and beignets (a French doughnut) for Breakfast and return to Baton Rouge after an early Dinner. The cost of this trip includes transportation only.


Housing

The following housing options are all located on campus:

  • Dormitory: Evangeline Hall located close to the Life Sciences Bldg.
  • Motel/Hotel:
    • Pleasant Hall 1-888-551-5933 (Mention you are with ABLE)
    • Lod Cook Alumni Center 1-866-610-2665 (COOK)

To register for the Evangeline Hall please click here for Housing Registration Form.

To register for Pleasant Hall or the Alumni Center please contact them directly.


Getting to LSU

By Car

If you are planning on driving, Baton Rouge is located on Interstate 10 just east of the Mississippi River. We will have parking permits and maps at the registration desk (Lobby Life Sciences Annex, located at the corner of Highland Road and South Campus Drive). [campus map].

From I-10: (view map)

Route 1: Exit at Nicholson Dr./Highland Rd. (Exit 155A). Take Highland Rd. (about 1.7 miles).

Route 2: Exit at Dalrymple Dr. (Exit 156B). Both eastbound and westbound traffic will take a right onto Dalrymple Dr. from the off-ramp. Take Dalrymple Dr. to Highland Rd. (about 0.5 mile). Take a left on to Highland Rd. Take Highland Rd. (about 0.2 miles).

Route 3: Exit at Acadian Thruway (Exit 157B). If exiting from the eastbound off-ramp you will take a right onto Acadian Thruway; if exiting from the westbound off-ramp you will take a left onto Acadian Thruway. Take Acadian Thruway (which turns into Stanford Avenue and then into LSU Avenue) to Highland Rd. Take a right onto Highland Rd. Take Highland Rd. (about 1.5 miles).

By Plane

If you are planning on flying the easiest way is to fly directly into Baton Rouge Metropolitan Airport. Delta, American, Northwest, and Continental all fly into Baton Rouge. The airport is located about 10 miles North of LSU. On Monday afternoon/evening (4:00pm-8:00pm) and Tuesday afternoon/evening (1:00pm -7:00pm) we will provide shuttle transportation to get you from the airport to LSU. The vans will be identified as LSU-ABLE. If you arive at other times there are taxis available. The return shuttle trips for Saturday and Sunday will be scheduled during registration. 

The other option is to fly into Louis Armstrong New Orleans International Airport. New Orleans International Airport is some 70 miles southeast of Baton Rouge, but a straight shot to Baton Rouge on Interstate 10. There is no shuttle service to and from the New Orleans Airport, but car rentals are available.


ABLE Membership Information and Renewal

Current ABLE members: You will not be able to renew your  membership when you register for the conference. Please send your renewals directly to: Denise Martin, ABLE Membersip Chair, Biology Dept., St. Michael's College, Box 283, Winooski Park, Colchester, VT 05439, dmartin@smcvt.edu

Visit the ABLE web site for membership information.

Go to: Membership Application/Renewal Form


Social Events

Opening Reception: the opening reception will be held in the LSU Faculty Club. Built in 1939 this building provides a unique atmosphere for the opening reception.

Wednesday Night Optional Dinner at Boutin's: Join us for a meal featuring Cajun cuisine and dancing. This is limited to 75 people.

Banquet: Friday evening we will travel a few miles to the Burden Research Plantation. This 420 acre site contains 15 acres of formal gardens and 150 acres of forest. It features the formal gardens and plant collections, the Ione Burden Conference Center, the Steele Burden Memorial Orangerie and the All-American rose display garden, as well as the Rural Life Museum. The Rural Life Museum recalls the lifestyles an d cultures of the wide variety of peoples who settled this area including the : Indians, French, Spanish, Anglo-American, Germans, African Negroes, and Acadians. These groups have all made significant contributions to Louisiana's rich cultural heritage.


Weather

[Check back here soon for more information about what to expect the weather to be like in June.]

Go to: Current Baton Rouge Weather (external link)


For more conference information, please contact:

Bill Wischusen
Host, ABLE 2002
Department of Biological Sciences
Louisiana State University
104 Life Sciences Bldg.
Baton Rouge, LA 70803
e-mail: ewischu@lsu.edu

This page was last revised on: 8 April 2002


All contents copyright © 2005. Association for Biology Laboratory Education. All rights reserved.