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Fish-Stream Identification Guidebook
of BRITISH COLUMBIA Fish-stream Identification Guidebook Second edition Version 2.1 August 1998 BC Environment Fish-stream Identification Guidebook of BRITISH COLUMBIA Fish-stream Identification Guidebook Second edition Version 2.1 August 1998 Authority Forest Practices Code of British Columbia Act Operational Planning Regulation Canadian Cataloguing in Publication Data Main entry under title: Fish-stream identification guidebook. – 2nd ed. (Forest practices code of British Columbia) ISBN 0-7726-3664-8 1. Fishes – Habitat – British Columbia. 2. River surveys – British Columbia. 3. Forest management – British Columbia. 4. Riparian forests – British Columbia – Management. I. British Columbia. Ministry of Forests. SH177.L63F58 1998 634.9 C98-960250-8 Fish-stream Identification Guidebook Preface This guidebook has been prepared to help forest resource managers plan, prescribe and implement sound forest practices that comply with the Forest Practices Code. Guidebooks are one of the four components of the Forest Practices Code. The others are the Forest Practices Code of British Columbia Act, the regulations, and the standards. The Forest Practices Code of British Columbia Act is the legislative umbrella authorizing the Code’s other components. It enables the Code, establishes mandatory requirements for planning and forest practices, sets enforcement and penalty provisions, and specifies administrative arrangements. The regulations lay out the forest practices that apply province-wide. The chief forester may establish standards, where required, to expand on a regulation. Both regulations and standards are mandatory requirements under the Code. Forest Practices Code guidebooks have been developed to support the regulations, however, only those portions of guidebooks cited in regulation are part of the legislation. -
Synoptic-Scale Control Over Modern Rainfall and Flood Patterns in the Levant Drylands with Implications for Past Climates
JUNE 2018 ARMONETAL. 1077 Synoptic-Scale Control over Modern Rainfall and Flood Patterns in the Levant Drylands with Implications for Past Climates MOSHE ARMON Fredy and Nadine Herrmann Institute of Earth Sciences, Hebrew University of Jerusalem, Givat Ram, Jerusalem, Israel ELAD DENTE Fredy and Nadine Herrmann Institute of Earth Sciences, Hebrew University of Jerusalem, Givat Ram, and Geological Survey of Israel, Jerusalem, Israel JAMES A. SMITH Department of Civil and Environmental Engineering, Princeton University, Princeton, New Jersey YEHOUDA ENZEL AND EFRAT MORIN Fredy and Nadine Herrmann Institute of Earth Sciences, Hebrew University of Jerusalem, Givat Ram, Jerusalem, Israel (Manuscript received 23 January 2018, in final form 1 May 2018) ABSTRACT Rainfall in the Levant drylands is scarce but can potentially generate high-magnitude flash floods. Rainstorms are caused by distinct synoptic-scale circulation patterns: Mediterranean cyclone (MC), active Red Sea trough (ARST), and subtropical jet stream (STJ) disturbances, also termed tropical plumes (TPs). The unique spatiotemporal char- acteristics of rainstorms and floods for each circulation pattern were identified. Meteorological reanalyses, quantitative precipitation estimates from weather radars, hydrological data, and indicators of geomorphic changes from remote sensing imagery were used to characterize the chain of hydrometeorological processes leading to distinct flood patterns in the region. Significant differences in the hydrometeorology of these three flood-producing synoptic systems were identified: MC storms draw moisture from the Mediterranean and generate moderate rainfall in the northern part of the region. ARST and TP storms transfer large amounts of moisture from the south, which is converted to rainfall in the hyperarid southernmost parts of the Levant. -
The Use of Next Generation Sequencing to Study the Environmental Mycobiome and Its Potential Health Effects
The use of next generation sequencing to study the environmental mycobiome and its potential health effects Emma Marczylo Bioaerosols – June 2017 Overview • Brief Background: • Why are CRCE interested in fungal bioaerosols? • Mycobiome analysis: • Why use next generation sequencing? • Ongoing work • What is the current focus of CRCE’s bioaerosol research? 2 Bioaerosols – June 2017 Why bioaerosols? • Respiratory health/toxicology a big focus within our department & bioaerosols represent a current respiratory health concern 3 Bioaerosols – June 2017 Why bioaerosols? • Common sources relevant to public health 4 Bioaerosols – June 2017 Why bioaerosols? • Public concern over health effects of living near composting and intensive farming sites • Systematic reviews on exposures and health outcomes related to bioaerosol emissions from composting facilities (published 2015*) or intensive farming (ongoing) in collaboration with SAHSU • Evidence on both exposure assessment and health effects are limited • A big unknown is the microbial composition of such bioaerosols *Pearson et al, 2015, J Toxicol Environ Health B Crit Rev,18:43-69 5 Bioaerosols – June 2017 Why fungi? Normally die rapidly due to water evaporation, although increased humidity and clumping can prolong survival • Can remain viable for much longer periods, even at low humidity & high/low temperatures • Much less known about the fungal composition of bioaerosols (and other samples) • Fungi linked with development and exacerbation of asthma symptoms 6 Bioaerosols – June 2017 Mycobiome -
Framework for In-Field Analyses of Performance and Sub-Technique Selection in Standing Para Cross-Country Skiers
sensors Article Framework for In-Field Analyses of Performance and Sub-Technique Selection in Standing Para Cross-Country Skiers Camilla H. Carlsen 1,*, Julia Kathrin Baumgart 1, Jan Kocbach 1,2, Pål Haugnes 1 , Evy M. B. Paulussen 1,3 and Øyvind Sandbakk 1 1 Centre for Elite Sports Research, Department of Neuromedicine and Movement Science, Faculty of Medicine and Health Sciences, Norwegian University of Science and Technology, 7491 Trondheim, Norway; [email protected] (J.K.B.); [email protected] (J.K.); [email protected] (P.H.); [email protected] (E.M.B.P.); [email protected] (Ø.S.) 2 NORCE Norwegian Research Centre AS, 5008 Bergen, Norway 3 Faculty of Health, Medicine & Life Sciences, Maastricht University, 6200 MD Maastricht, The Netherlands * Correspondence: [email protected]; Tel.: +47-452-40-788 Abstract: Our aims were to evaluate the feasibility of a framework based on micro-sensor technology for in-field analyses of performance and sub-technique selection in Para cross-country (XC) skiing by using it to compare these parameters between elite standing Para (two men; one woman) and able- bodied (AB) (three men; four women) XC skiers during a classical skiing race. The data from a global navigation satellite system and inertial measurement unit were integrated to compare time loss and selected sub-techniques as a function of speed. Compared to male/female AB skiers, male/female Para skiers displayed 19/14% slower average speed with the largest time loss (65 ± 36/35 ± 6 s/lap) Citation: Carlsen, C.H.; Kathrin found in uphill terrain. -
Field Indicators of Hydric Soils
United States Department of Field Indicators of Agriculture Natural Resources Hydric Soils in the Conservation Service United States In cooperation with A Guide for Identifying and Delineating the National Technical Committee for Hydric Soils Hydric Soils, Version 8.2, 2018 Field Indicators of Hydric Soils in the United States A Guide for Identifying and Delineating Hydric Soils Version 8.2, 2018 (Including revisions to versions 8.0 and 8.1) United States Department of Agriculture, Natural Resources Conservation Service, in cooperation with the National Technical Committee for Hydric Soils Edited by L.M. Vasilas, Soil Scientist, NRCS, Washington, DC; G.W. Hurt, Soil Scientist, University of Florida, Gainesville, FL; and J.F. Berkowitz, Soil Scientist, USACE, Vicksburg, MS ii In accordance with Federal civil rights law and U.S. Department of Agriculture (USDA) civil rights regulations and policies, the USDA, its Agencies, offices, and employees, and institutions participating in or administering USDA programs are prohibited from discriminating based on race, color, national origin, religion, sex, gender identity (including gender expression), sexual orientation, disability, age, marital status, family/parental status, income derived from a public assistance program, political beliefs, or reprisal or retaliation for prior civil rights activity, in any program or activity conducted or funded by USDA (not all bases apply to all programs). Remedies and complaint filing deadlines vary by program or incident. Persons with disabilities who require alternative means of communication for program information (e.g., Braille, large print, audiotape, American Sign Language, etc.) should contact the responsible Agency or USDA’s TARGET Center at (202) 720-2600 (voice and TTY) or contact USDA through the Federal Relay Service at (800) 877-8339. -
Design of Control Laws for Flutter Suppression Based on the Aerodynamic Energy Concept and Comparisons with Other Design Methods
NASA Technical Paper 3056 1990 Design of Control Laws for Flutter Suppression Based on the Aerodynamic Energy Concept and Comparisons With Other Design Methods E. Nissim Ames Research Center Dryden Flight Research Facility Edwards, California National Aeronautics and Space Administration Office of Management Scientific and Technical Information Division CONTENTS SUMMARY INTRODUCTION NOMENCLATURE 2 Abbreviations ............................................... 2 2 Letter and Mathematical Symbols ..................................... Subscripts ................................................. 3 REVIEW OF AERODYNAMIC ENERGY CONCEPT 3 3 General Approach ............................................. Review of Aerodynamic Energy Two-Dimensional Strip Results ..................... 4 Review of Specific Control Laws Obtained Using the Aerodynamic Energy Concept ........... 5 Review of Control Law Synthesis Technique ............................... 6 DAST-ARW1 MODEL 7 Description ................................................. 7 Validation ................................................. 7 DEVELOPMENT AND EVALUATION OF IMPROVED CONTROL LAW SYNTHESIS TECHNIQUE 9 Case 1--Synthesis Technique and Presentation of Results for Systems With No Actuator Dynamics . 9 Case 2----Control Laws Synthesized With Actuator and With Structural Filter ............... 12 Definition of the Form of the Required Control Law ......................... 12 Presentation of Results ........................................ 13 Case 3--Results for Systems With Actuator Only, -
National Classification? 13
NATIONAL CL ASSIFICATION INFORMATION FOR MULTI CLASS SWIMMERS Version 1.2 2019 PRINCIPAL PARTNER MAJOR PARTNERS CLASSIFICATION PARTNERS Version 1.2 2019 National Swimming Classification Information for Multi Class Swimmers 1 CONTENTS TERMINOLOGY 3 WHAT IS CLASSIFICATION? 4 WHAT IS THE CLASSIFICATION PATHWAY? 4 WHAT ARE THE ELIGIBLE IMPAIRMENTS? 5 CLASSIFICATION SYSTEMS 6 CLASSIFICATION SYSTEM PARTNERS 6 WHAT IS A SPORT CLASS? 7 HOW IS A SPORT CLASS ALLOCATED TO AN ATHLETE? 7 WHAT ARE THE SPORT CLASSES IN MULTI CLASS SWIMMING? 8 SPORT CLASS STATUS 11 CODES OF EXCEPTION 12 HOW DO I CHECK MY NATIONAL CLASSIFICATION? 13 HOW DO I GET A NATIONAL CLASSIFICATION? 13 MORE INFORMATION 14 CONTACT INFORMATION 16 Version 1.2 2019 National Swimming Classification Information for Multi Class Swimmers 2 TERMINOLOGY Assessment Specific clinical procedure conducted during athlete evaluation processes ATG Australian Transplant Games SIA Sport Inclusion Australia BME Benchmark Event CISD The International Committee of Sports for the Deaf Classification Refers to the system of grouping athletes based on impact of impairment Classification Organisations with a responsibility for administering the swimming classification systems in System Partners Australia Deaflympian Representative at Deaflympic Games DPE Daily Performance Environment DSA Deaf Sports Australia Eligibility Criteria Requirements under which athletes are evaluated for a Sport Class Evaluation Process of determining if an athlete meets eligibility criteria for a Sport Class HI Hearing Impairment ICDS International Committee of Sports for the Deaf II Intellectual Impairment Inas International Federation for Sport for Para-athletes with an Intellectual Disability General term that refers to strategic initiatives that address engagement of targeted population Inclusion groups that typically face disadvantage, including people with disability. -
IGCC®/IGMA® CERTIFIED PRODUCTS February 2018 Page 15
IGCC®/IGMA® CERTIFIED PRODUCTS CERTIFICATION FRAME INTERNAL LICENSEE NUMBER CONSTRUCTION SUBSTRATE SPACER DESICCANT SEALANT COMPONENTS GCIA Advantage Glass Corp 4457 BC4/PLLC U/C2 ZS LF PIB/S2 601 West Carboy Road Mount Prospect, IL 60056 847-290-1707 Advantage Glass Corp. IGCC(R)IGMA(R) 2017 AGC Flat Glass (Thailand) PLC. 4432 MC4/ALK U/C3/U MA/MA LF/LF PIB/S2 Yes 200 Moo 1, Suksawad Road Pak Khlong Bang Pla Kod Phra Samut Chedi, Samut Prakan 10290 Thailand 66-2815-5000x1982 AGC/Poma Glass Co. N.A. 2903 BC3/MC1/ZS/IC U/C3/U UT/UT DM/DM HM IC Yes 365 McClurg Road-Suite E 2904 BC3/MC1/ZS/IC U/C3/U US/US DM/DM HM IC Yes Boardman, OH 44512 3705 BC3/MC1/MT/IC U/C3/U FS/FS IB/IB HM IC Yes 330-965-1000 4173 BC3/MC1/IC U/C3 BCS IB BCS IC Yes AGC 61 IGCC®/IGMA® 2017 4268 BC3/MC1/ZS/IC U/C3/U US/US DM/DM RHM IC Yes 4277 BC3/MC1/ZS/IC U/C3/U UT/UT DM/DM RHM IC Yes 4584 BC3/MC1/IC U/C3 BPS IB BPS IC Yes 4654 BC3/MC1/MT/IC U/C3 FS/FS IB/IB HM IC Yes 4655 BC3/MC1/IC U/C3/U BCS/BCS IB/IB BCS IC Yes AGC-Poma Glass Co. N.A. 3981 BC3/MC1/MT/IC U/C3/U FS/FS IB/IB HM IC Yes 480 California Road 3982 BC3/MC1/ZS/IC U/C3/U US/US DM/DM HM IC Quakertown, PA 18951 4093 BC3/MC1/ZS/IC U/C3/U UT/UT DM/DM HM IC 215-538-9424 4094 BC3/MC1/ZS/IC U/C3/U UT/UT DM/DM HM IC Yes AGC 63 IGCC(R)/IGMA(R) 17 4099 BC3/MC1/IC U/C3 BPS IB BPS IC Yes 4236 BC3/MC1/IC U/C3/U BCS/BCS IB/IB BCS IC Yes 4648 BC3/MC1/ZS/IC U/C3/U US/US DM/DM HM IC Yes 4673 BC3/MC1/MT/IC U/C3/U FS/FS IB/IB HM IC Yes 4674 BC3/MC1/IC U/C3 BPS IB BPS IC Yes 4675 BC3/MC1/IC U/C3/U BCS/BCS IB/IB BCS IC Yes Ajiya Safety Glass Sdn Bhd 2871 MC4/PLK U/C2 MA LF PIB/S2 Lot 575, 1 KM Lebuhraya Segamat-Kuantan Segamat, Johor 85000 Malaysia 607-9313133 Ajiya® IGCC®/IGMA® ASTM E2190 2017 Al Abbar Architectural Glass 2977 BC4/ALLC U/U MA LF PIB/S2 Yes Sanaa St., PO Box 1626 Ras Alkhor, Industrial Estate Dubai United Arab Emirates 104-333-1362 Al Abbar IGCC®/IGMA® 2017 February 2018 Page 15 CERTIFICATION FRAME INTERNAL LICENSEE NUMBER CONSTRUCTION SUBSTRATE SPACER DESICCANT SEALANT COMPONENTS GCIA Aldora Aluminum and Glass Products Inc. -
United States Olympic Committee and U.S. Department of Veterans Affairs
SELECTION STANDARDS United States Olympic Committee and U.S. Department of Veterans Affairs Veteran Monthly Assistance Allowance Program The U.S. Olympic Committee supports Paralympic-eligible military veterans in their efforts to represent the USA at the Paralympic Games and other international sport competitions. Veterans who demonstrate exceptional sport skills and the commitment necessary to pursue elite-level competition are given guidance on securing the training, support, and coaching needed to qualify for Team USA and achieve their Paralympic dreams. Through a partnership between the United States Department of Veterans Affairs and the USOC, the VA National Veterans Sports Programs & Special Events Office provides a monthly assistance allowance for disabled Veterans of the Armed Forces training in a Paralympic sport, as authorized by 38 U.S.C. § 322(d) and section 703 of the Veterans’ Benefits Improvement Act of 2008. Through the program the VA will pay a monthly allowance to a Veteran with a service-connected or non-service-connected disability if the Veteran meets the minimum VA Monthly Assistance Allowance (VMAA) Standard in his/her respective sport and sport class at a recognized competition. Athletes must have established training and competition plans and are responsible for turning in monthly and/or quarterly forms and reports in order to continue receiving the monthly assistance allowance. Additionally, an athlete must be U.S. citizen OR permanent resident to be eligible. Lastly, in order to be eligible for the VMAA athletes must undergo either national or international classification evaluation (and be found Paralympic sport eligible) within six months of being placed on the allowance pay list. -
Early Childhood Special Education/Early Intervention Revalidated 2017
Initial Specialty Set: Early Childhood Special Education/Early Intervention Revalidated 2017 Initial Preparation Standard 1: Learner Development and Individual Learning Differences Knowledge ECSE.K1.1 Theories of typical and atypical early childhood development ECSE.K1.2 Biological and environmental factors that affect pre-, peri-, and postnatal development and learning ECSE.K1.3 Specific disabilities, including the etiology, characteristics, and classification of common disabilities in infants and young children, and specific implications for development and learning in the first years of life ECSE.K1.4 Impact of medical conditions and related care on development and learning ECSE.K1.5 Impact of medical conditions on family concerns, resources, and priorities ECSE.K1.6 Factors that affect the mental health and social-emotional development of infants and young children ECSE.K1.7 Infants and young children develop and learn at varying rates ECSE.K1.8 Impact of child’s abilities, needs, and characteristics on development and learning ECSE.K1.9 Impact of language delays on cognitive, social-emotional, adaptive, play, temperament and motor development ECSE.K1.10 Impact of language delays on behavior Skills ECSE.S1.1 Develop, implement, and evaluate learning experiences and strategies that respect the diversity of infants and young children, and their families ECSE.S1.2 Develop and match learning experiences and strategies to characteristics of infants and young children ECSE.S1.3 Support and facilitate family and child interactions as primary -
2021 Florida Elite Football Official Rulebook
2021 FLORIDA ELITE FOOTBALL OFFICIAL RULEBOOK 2021 FL ELITE RULEBOOK 1 TABLE OF CONTENTS PART I-THE FLORIDA ELITE PROGRAM HEADQUARTERS CONFERENCE REMARKS ADMINISTRATIVE BYLAWS MANUAL MISSION STATEMENT GOALS AND PHILOSOPHY OF THE FLORIA ELITE PROGRAM PART II-FLORIDA ELITE STRUCTURE DEFINITIONS S1-LEAGUE S2-ASSOCIATION S3-ADMINISTRATORS S4-TEAM S5-DIVISION INTRODUCTION TO THE RULES PART III - FLORIDA ELITE REGULATIONS ARTICLE 1: POWERS/AUTHORITY OF LEAGUE ARTICLE 2: BOUNDARIES ARTICLE 3: COACHES REQUIREMENTS ARTICLE 4: REGISTRATION S1-PARENTAL CONSENT S2-MEDICAL EXAMINATION S3-PROOF OF AGE S4-SCHOLASTIC FITNESS S5-INFECTIOUS DISEASE WAIVER ARTICLE 5: FORMATION OF TEAMS AND SQUADS ARTICLE 6: MANDATORY CUTS ARTICLE 7: VOLUNTARY CUTS ARTICLE 8: CERTIFICATION ARTICLE 9: DROPS AND ADDS ARTICLE 10: NO ALL-STARS ARTICLE 11: AWARDS ARTICLE 12: PRACTICE ARTICLE 13: CAMPS ARTICLE 14: IMPORTANT POINT – MEDICAL & CONCUSSIONS S1-CONCUSSIONS ARTICLE 15: CHARGING ADMISSION ARTICLE 16: PROTESTS ARTICLE 17: PATCH REQUIREMENT ARTICLE 18: MANDATORY BACKGROUND CHECKS PART IV - ENFORCEMENT POLICY POLICE POWERS/HEARINGS & APPEALS MINIMUM MANDATED PENALTIES S1-ADULT OFFENSES S2-JUVENILE OFFENSES S3-TEAM AND ASSOCIATION OFFENSES 2021 FL ELITE RULEBOOK 2 PART V-GENERAL FOOTBALL RULES RULE 1: AGE REQUIREMENTS RULE 2: LENGTH OF PERIODS RULE 3: DIGITAL BOOK CHECK PROCEDURES RULE 4: PLAYING FIELDS RULE 5: INJURED PLAYERS PART VI- ROOKIE - SENIORS FOOTBALL RULES RULE 1: AGES RULE 2: CERTIFICATION OF PLAYERS RULE 3: ROSTER SIZE S1-MAXIMUM ROSTER SIZE: S2-MINIMUM ROSTER -
30 4.5 Roads
Escape route and open area duration may be extended from 5s to 15s in premises for the most part likely to be occupied by persons who are familiar with them France (CEN 1838:1999) Certified luminaires only may be used On escape routes maximum spacing of luminaires is 15m For open areas 5lm/m2 (luminaire lumens) is required and luminaires may not be spaced more than 4 times their mounting height apart, with a minimum of 2 luminaires per room Therefore, whilst these values may be used for guidance local regulations should be consulted. 4.5 Roads For road lighting the lighting criteria are selected dependant upon the class of road being lit. The class has a range of sub-classes, from the strictest to the most relaxed, and these are chosen dependant upon factors, such as typical speed of users, typical volumes of traffic flow, difficulty of the navigational task, etc. The basic lighting classes are defined as: ME This class is intended for users of motorised vehicles on traffic routes. In some countries this class also applies to KEY Emin - minimum illuminance residential roads. Traffic speeds are medium to high. Em - maintained average illuminance Lm - maintained average luminance The ME classes go from ME1 to ME6, with ME1 defining Uo - overall uniformity the strictest requirements. For wet road conditions the Ul - longitudinal uniformity TI - threshold increment MEW classes go from MEW1 to MEW6. SR - surround ratio Luminance Lm U0 Ul SR TI ME1 ≥ 2.0 cd/m2 ≥ 0.40 ≥ 0.70 ≥ 0.50 ≤ 10% ME2 ≥ 1.5 cd/m2 ≥ 0.40 ≥ 0.70 ≥ 0.50 ≤ 10% ME3A ≥ 1.0