THE MARINE MAMMAL COMMISSION COMPENDIUM
BILATERAL / NORWAY
First Update; pages 846-851
Done at Washington, D.C. 5 April 1995
Entered into force 5 April 1995
Primary source citation: Copy of text provided by the U.S. Department of State
AGREEMENT BETWEEN THE GOVERNMENT OF THE UNITED STATES OF AMERICA AND THE GOVERNMENT OF NORWAY FOR COOPERATION IN THE GLOBE PROGRAM
The Government of the United States of America and the Government of Norway (hereinafter, the sides),
Intending to increase the awareness of students throughout the world about the global environment,
Seeking to contribute to increased scientific understanding of the Earth, and
Desiring to support improved student achievement in science and mathematics,
Have agreed to cooperate in the Global Learning and Observations to Benefit the Environment (GLOBE) Program as follows:
ARTICLE 1 - THE GLOBE PROGRAM
ARTICLE 2 - COOPERATING AGENCIES
On the U.S. side, the U.S. National Oceanic and Atmospheric Administration, acting in conjunction with other U.S. Government agencies participating in the GLOBE Program;
On the Norwegian side, the Ministry of Education, Research and Church Affairs.
ARTICLE 3 - RESPECTIVE RESPONSIBILITIES
1. Identify U.S. schools that will participate in the GLOBE Program (details regarding GLOBE schools in Appendix A);
2. Select, in consultation with international scientists and educators, the GLOBE environmental measurements and types of measurement equipment (described in Appendix B);
3. Select Principal Investigator Teams for the GLOBE environmental measurements, and support the U.S. members of the Teams;
4. Calibrate, if necessary, measurement equipment that cannot be calibrated by GLOBE teachers and students;
5. Develop, in consultation with international scientists and educators, GLOBE educational materials;
6. Translate GLOBE instructional materials related to measurement procedures and data reporting protocols into the six United Nations languages, and provide these plus all broader GLOBE educational materials to the Norwegian side for further reproduction as necessary;
7. Conduct annual regional training sessions for GLOBE Country Coordinators and GLOBE teachers who will serve as trainers for additional GLOBE teachers in Norway, and provide a copy of GLOBE training materials to the Norwegian side; 8. Design, develop, operate, and maintain GLOBE data processing capabilities and other necessary technology and equipment;
9. Provide GLOBE software, as necessary, for use on Norwegian GLOBE school computers. (To the maximum extent possible, textual material appearing on computer screens will be accessible in the student's choice among the six United Nations languages.);
10. Accept environmental data reported from GLOBE schools around the world, and develop and provide resultant global environmental images (visualization products) to the Norwegian side; and
11. Evaluate the overall GLOBE Program periodically, in consultation with international GLOBE Country Coordinators, and modify the overall program as appropriate.
B. The Norwegian side will:
1. Select Norwegian schools to participate in the GLOBE Program (details regarding GLOBE schools in Appendix A) and provide an updated list of Norwegian GLOBE schools to the U.S. side at the beginning of each school year;
2. Ensure that Norwegian GLOBE schools conduct the fundamental activities of GLOBE schools detailed in Appendix A (take GLOBE environmental measurements, report data, and receive and use resultant global environmental images, using GLOBE educational materials under the guidance of teachers trained to conduct the GLOBE Program);
3. Name a Norwegian Government Point of Contact responsible for policy-level communications with the Director of the GLOBE Program;
4. Name a Country Coordinator responsible for day-to-day management, oversight, and facilitation of the GLOBE Program in Norway;
5. Ensure that the Country Coordinator and some GLOBE teachers attend GLOBE regional training and in turn provide GLOBE training to at least one teacher in each Norwegian GLOBE school;
6. Ensure that GLOBE instructional materials related to measurement procedures and data reporting protocols are utilized in Norwegian GLOBE schools, and that broader GLOBE educational materials are appropriately translated, adapted, reproduced, and distributed to all Norwegian GLOBE schools;
7. Ensure that Norwegian GLOBE schools have the necessary measurement equipment to take GLOBE environmental measurements (described in Appendix B);
8. Ensure that teachers and students at Norwegian GLOBE schools calibrate GLOBE measurement equipment according to procedures provided in GLOBE instructional materials;
9. Ensure that Norwegian GLOBE schools have the necessary computer and communications systems (described in Appendix C) to report GLOBE environmental measurements and to receive and use GLOBE visualization products, or make agreed alternative arrangements for such reporting and receipt. (At a minimum, the Norwegian Country Coordinator will need access to Internet so that all measurement data from Norwegian GLOBE schools will be reported via Internet.); and
10. Evaluate GLOBE operations in Norway periodically and assist the U.S. side in conducting periodic evaluation of the overall GLOBE Program.
ARTICLE 4 - FINANCIAL ARRANGEMENTS
ARTICLE 5 - EXCHANGE OF DATA AND GOODS
ARTICLE 6 - RELEASE OF INFORMATION ABOUT THE GLOBE PROGRAM
ARTICLE 7 - CUSTOMS AND IMMIGRATION
ARTICLE 8 - ENTRY INTO FORCE, AMENDMENTS, WITHDRAWAL
Done at Washington, in duplicate, on April 5, 1995. FOR THE GOVERNMENT OF THE UNITED STATES OF AMERICA: [Signature]
FOR THE GOVERNMENT OF NORWAY: [Signature]
APPENDIX A GLOBE Schools
Each partner country will be responsible for identifying its participating schools. Schools should be selected so as to satisfy the objectives of the GLOBE Program. In particular, countries should emphasize the selection of schools that will maximize the number of students worldwide participating in the program. Also, countries should consider involving schools in locations that will yield measurement data that is important to the international environmental science community.
Students at all GLOBE schools throughout the world will conduct the following fundamental activities: they will make environmental measurements at or near their schools; report their data to a GLOBE data processing site; receive vivid graphical global environmental images (visualization products) created from their data and the data ¬from other GLOBE schools around the world; and study the environment by relating their observations and the resulting visualization products to broader environmental topics. All of these activities will be conducted under the guidance of specially trained teachers (GLOBE-trained teachers).
GLOBE educational materials will be used in GLOBE schools under the guidance of GLOBE-trained teachers. These materials will detail procedures for taking environmental measurements and protocols for reporting data; explain the significance of the measurements; guide the use of the visualization products; and integrate the measurement aspects of the program into a broader study of the environment.
Schools throughout the United States and the rest of the world that are not GLOBE schools may become GLOBE Affiliate schools by observing the GLOBE Program in operation through the Internet. Students at these schools will benefit from the use of GLOBE visualization products and educational materials accessible on-line. All GLOBE Affiliate schools will be encouraged to become participating GLOBE schools.
APPENDIX B GLOBE Environmental Measurements and Equipment
GLOBE environmental measurements will contribute in a significant way to the scientific understanding of the dynamics of the global environment. Every GLOBE school will conduct a core set of GLOBE environmental measurements in the following critical areas: Atmosphere/Climate, Hydrology/Water Chemistry, and Biology/Geology. Where possible, a GLOBE school may coordinate its activities with those of other neighboring GLOBE schools, so that the complete set of GLOBE measurements will be available from a locality. As the GLOBE Program evolves, elective measurements not common to all GLOBE schools may be added in order to address local environmental issues.
Students at all age levels will be active participants in the GLOBE Program. The actual participation will be designed so as to be grade-appropriate for grades K-5, 6-8, and 9-12 (or equivalent). Younger students will make limited measurements which may be qualitative rather than quantitative. Older students will make additional measurements and more sophisticated measurements, as appropriate for their grade level. Measurement equipment will not need to be standardized; rather, performance specifications will be provided.
Following is an example list of core measurements and equipment. The full list will be initially determined and periodically updated as provided in Article 2.A.2, based on experience gained in implementing the GLOBE Program.
MEASUREMENTS EQUIPMENT NEEDED
Hydrology/Water Chemistry: Water pH pH Paper, Pen, or Meter Water Temperature Alcohol Thermometer Soil Moisture Gypsum Block Sensors Soil Moisture Meter
Biology/Geology: Habitat Study Compass Meter Measuring Tape Surveying Markers or Stakes Tree Height Clinometer Tree Canopy Densiometer Tree Diameter Diameter Tape Species Identification Dichotomous Keys Phenology 35mm Camera
APPENDIX C GLOBE Computer and Communications Systems
In order to derive maximum benefit from the GLOBE Program, all schools will be encouraged to use an international information network, initially using the Internet, along with classroom computers. The World Wide Web multi-media information-access capability has been selected as the basis for IBM-compatible and Apple Macintosh computer systems to support the required GLOBE school activities of data entry, data analysis, and use of GLOBE environmental images. Following is a description of GLOBE computer and communications systems consistent with current GLOBE requirements.
Overall attributes of the minimum GLOBE school computer configuration that can execute the necessary software are:
For IBM-compatible systems: a 386 SX or higher level processor; at least 4 megabytes of RAM memory (8 megabytes preferred); a VGA-¬capable monitor and display driver (Super VGA preferred); a hard disk storage system with as large a capacity as possible (preferably 300 megabytes or larger); and a direct Internet connection or dial-up capability that can use SLIP or PPP protocols with a 14,400 bps modem (preferably supporting V.42bis data compression which can enable 57,600 bps operation). The Windows 3.1 or later operating system is necessary. A printer is desirable.
For Apple Macintosh systems: a 68030 20 Mhz or faster processor; at least 4 megabytes of RAM memory (8 megabytes preferred); a hard disk storage system with as large a capacity as possible (preferably 300 megabytes or larger); and a direct Internet connection or dial-up capability that can use SLIP or PPP protocols with a 14,400 bps modem (preferably supporting V.42bis data compression which can enable 57,600 bps operation). A printer is desirable.
Software for a higher performance GLOBE school computer system is being developed that will operate on higher performance, multi¬-media IBM-compatible systems and on Apple Macintosh systems. For IBM-compatible systems: a 486/66 or faster processor; 16 megabytes of RAM memory; 500 megabytes of hard disk space; a Super VGA monitor; a double-speed CD-ROM reader; a Soundblaster-compatible sound card; and an MPEG animation speed-up board will be required. For Apple Macintosh systems: a PowerPC processor; 16 megabytes of RAM memory; 500 megabytes of hard disk space; and a double-speed CD-ROM reader will be required. A communications capability the same as or better than for the minimum configurations above will also be required. A printer will be highly desirable.
It is recognized that there is a broad range of technological capabilities among potential GLOBE schools. The diversity of technology accessible by schools worldwide may require in some cases that environmental measurements be reported in hardcopy¬ and that a variety of media be used to distribute visualization products, including photographs and broadcast television. All schools that want to participate in the program will be accommodated.
Technology associated with the GLOBE Program will continually evolve to higher levels and participants will be encouraged to upgrade over time.