19,361 research outputs found
A Review of World Salmon Culture
World farmed salmon production reached 145,000 metric tons (t) in 1988 and an estimated 217,000 t in 1989. The latter figure is comparable to the U. S. annual salmon catch (about 250,000 t) and is approaching one-third the size of the world wild salmon catch (about 700,000 t). The rapid expansion of farmed salmon supplies in the late 1980's has led to sharp price decreases. Lower prices have forced some farmers out of business, but at the same time, a large number of farmers first began harvesting salmon on a commercial scale as the 1980's ended. Farmed salmon production could exceed 270,000 t in 1990
Salmon action plan. River Lune - February 1998
In February 1996 A Strategy for the Management of Salmon in England and Wales was launched by the National Rivers Authority.
The strategy concentrates on four main objectives for the management of salmon fisheries in England and Wales:
(i) Optimise the number of salmon returning to home water fisheries,
(ii) Maintain and improve the fitness and diversity of salmon stocks,
(iii) Optimise the total economic value of surplus stocks,
(iv) Ensure necessary costs are met by beneficiaries.
These four objectives will be addressed through local Salmon Action Plans (SAPs) which will be produced for each of the principle salmon rivers in England and Wales by the year 2001.
This Salmon Action Plan for the River Lune reviews the status of the stock and the fisheries, seeks to identify the main factors limiting performance, to draw up and cost a list of options to address these, and to consult with local interest groups
Cooperative artificial propagation programs for salmon and steelhead, 1995-1996
Fifteen cooperative fish rearing and planting programs for salmon and steelhead were active from July 1, 1995 through June 30, 1996. For all programs, 134,213 steelhead trout,(Oncorhynchus mykiss), 7,742,577 chinook salmon,(~ tshawytscha),and 25,075 coho salmon(~ kisutch) were planted.
(PDF contains 26 pages.
Central area redd project [Ribble, Hodder and Lune catchments]
Redd counting is an integral part of most Fishery Officers duties. The number and distribution of salmonid redds throughout salmonid catchments provides invaluable
information on the range and extent of spawning by both salmon and sea trout.
A project was initiated by the Fisheries Science and Management Team of Central Area, North West Region in England in liaison with the Flood Defence function. The main objective of this project was to assess redd count data for Central Area and attempt to quantify these data in order to produce a grading system that would highlight key salmonid spawning areas. By showing which were the main areas for salmon and sea trout spawning, better informed decisions could be made on whether or not in-stream Flood Defence works should be given the go-ahead.
The main salmonid catchments in Central Area were broken into individual reaches, approximately 1 km in length. The number of redds in these individual reaches were then
calculated and a density per lkm value was obtained for each reach. A grading system was devised which involved looking at the range of density per km values and dividing this by five to produce 5 classes, A - E. A sixth class (F) was used where the density per Ion value was 0.00. This grading system was calculated at two levels of detail. Grades for salmon and sea trout were produced for each individual catchment and also on an Area-wide level.
Maps were produced using a range of colours to represent the grade for each reach. These maps provide a highly useful overview of the status of salmonid spawning for each catchment over individual years and highlight the key salmon and sea trout spawning areas in each catchment.
These maps and the associated summary data should now provide Flood Defence and Fisheries staff with a fairly detailed overview of the status of spawning in any location within the. main salmonid catchments in Central Area. Although these maps are very useful they should only be used as a guide. The current practice of consulting with the local Fishery Officer should be continued to ensure that expert local knowledge is taken into account
Implementation of the Queensland 2019 Physics syllabus
The introduction of the new Queensland Certificate of Education (QCE) in 2020 has been the biggest change in Queensland's senior curriculum and assessment system in a generation. It has seen the implementation of a new Physics syllabus as part of a suite of ten new science syllabuses. Along with the introduction of a 50% external assessment, this syllabus includes three new internal assessment techniques ā data test, student experiment and research investigation.
This presentation will outline the features of the new Queensland Physics syllabus and describe key quality assurance processes. Key learnings from the initial years of implementation of the new syllabus will be shared. The benefits and challenges of using a common framework for all senior sciences, including subjects as different as Physics and Psychology, will be discussed.
REFERENCES
Marzano, J. M., & Kendall, J. S. (2008). Designing and assessing educational objectives: applying the new taxonomy. Thousand Oaks, CA: Corwin Press.
Marzano, J. M., & Kendall, J. S. (2007). The new taxonomy of educational objectives. Thousand Oaks, CA: Corwin Press.
Physics 2019 v1.3 General Senior Syllabus (2022). Retrieved August 13, 2022, from https://www.qcaa.qld.edu.au/downloads/senior-qce/syllabuses/snr_physics_19_syll.pdf
QCE and QCIA policy and procedures handbook v3.0 (2022). Retrieved August 13, 2022, from https://www.qcaa.qld.edu.au/senior/certificates-and-qualifications/qce-qcia-handboo
On reification: A reinterpretation of designed and emergent practice
This paper is a response to the article: āExamining the fiveāstage eāmoderating model: designed and emergent practice in the learning technology profession, published in ALTāJ 11 (1). Whilst we agree with the concerns of the authors on the problems of commodification and the increasing control of learning technology from a financial or predominantly management perspective, we wish to offer a reinterpretation of the research by taking a stricter analysis of the events described by the authors
Hydroelectric Dams and the Decline of Chinook Salmon in the Columbia River Basin
The decline of chinook salmon runs into the mouth of the Columbia River in recent decades is thought to be partly attributable to the construction of hydroelectric dams. The purpose of this article is to estimate the magnitude of losses in chinook salmon runs caused by hydroelectric dams, using regression analysis. Such estimates are not only of historical interest but also can potentially affect the extent of efforts to mitigate salmon losses from hydropower operations. Congress has mandated the Northwest Power Planning Council to consider the magnitude of run losses caused by hydroelectric operations in determining the extent of mitigation efforts.habitat, Northwest Power Planning Council, hydroelectric dams, Chinook salmon, smolt production., Environmental Economics and Policy, Resource /Energy Economics and Policy,
NRA North west salmonid microtagging programme 1987-1994
The microtagging programme began in 1987 using hatchery reared salmon originating from the rivers Caldew and Hodder and subsequently included the Lune (1988) and Ribble (1989). Microtagging of sea trout began in 1991 for the Lune and in 1993 for the Hodder.
The report explores the NRA North west salmonid microtagging programme looking at methods, results and recommendations.
The report provides salmon microtagging data and returns from 1987 to 1994
Breeding programs on Atlantic salmon in Norway: lessons learned
An early establishment of selective breeding programs on Atlantic salmon has been crucial for the success of developing efficient and sustainable salmon farming in Norway. A national selective breeding program was initiated by AKVAFORSK at the beginning of the 1970s, by collecting fertilized eggs from more than 40 Norwegian river populations. Several private selective breeding programs were also initiated in the 1970s and 1980s. While these private programs were initiated using individual selection (i.e. massselection) to genetically improve growth, the national program was designed to gradually include all economically important traits in the breeding objective (i.e. growth, age at sexual maturation, disease resistance and quality traits) using a combined family and within-family selection strategy. Independent of which selection strategy and program design used, it is important to secure and maintain a broad genetic variation in the breeding populations to maximize selection response. It has been documented that genetically improved salmon from the national selective breeding program grow twice as fast as wild Atlantic salmon and require 25 per cent less feed, while salmon representing the private breeding programs all show an intermediate growth performance. As a result of efficient dissemination of genetically improved Atlantic salmon, the Norwegian salmon farming industry has reduced its feed costs by more than US$ 230 million per year! The national selective breeding program on Atlantic salmon was commercialized into a breeding company (AquaGen) in 1992. Five years later, several private companies and the AKVAFORSK Genetics Center (AFGC) established a second breeding company (SalmoBreed) using breeding candidates from one of the private breeding programs. These two breeding companies have similar products, but different strategies on how to organize the breeding program and to disseminate the genetically improved seed to the Norwegian salmon industry. Greater competition has increased the necessity to document the genetic gain obtained from the different programs and to market the economic benefits of farming the genetically improved breeds. Both breeding companies have organized their dissemination to get a sufficient share of the economic benefits in order to sustain and improve their breeding programs
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