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Title: Southern Illinois University Carbondale Photograph Collection, 1868-2006 ID: 2/3/UAPH 01 Primary Creator: Extent: 312.5 Cubic Feet Arrangement: Organized into 10 series. Series 1: Things; Series 2: Events; Series 3: Places; Series 4: People; Series 5: Oversize Photographs; Series 6: Photographic Services Negatives, 1945-1967; Series 7: Photographic Services Negatives “A” Series, 1950-1958; Series 8: Photographic Services Negatives “B” Series, 1958-1965; Series 9: Photographic Services Negatives “C” Series, 1965-1975; Series 10: Photographic Services Negatives “D” Series, 1976-1990. Subjects: Forms of Material:, Languages: Scope and Contents of the Materials. The Southern Illinois University Carbondale Photograph Collection consists of over 40,000 photographs documenting university history. Topics include campus buildings, campus construction, student life and activities, entertainment, faculty and staff, Greek organizations, academics, class activities, sports, and military organizations. Some highlights include scenes from Shurtleff College, which became Southern Illinois University Edwardsville, and the Moo and Cackle riots of 1963. Series 1 through 5 contains photographs compiled into an artificial collection from various creators, organized into Things, Events, Places, People, and Oversized Photographs.

1. Ace

These photographs date from the late 19th century to the 2000s. Series 6 contains negatives, many of which are copy negatives, which are separated into their own series because of a specific original numbering system and arrangement. These were created by SIUC Photographic Services, formerly a unit of University Communications. Series 7-10 were also created by SIUC Photographic Services and organized into their original numbering system.

The United States Department of Agriculture (USDA) grades beef at the request of a meat processor. This is a voluntary program and only beef that is USDA inspected may carry the USDA shield of authenticity. The grading system is based on two primary criteria: maturity (i.e. The age of the animal at slaughter) and marbling (intramuscular fat). In a method and a system wherein an animal ( 10 ) at birth is provided with at least one electronic tag ( 20 ), comprising communicating means and an identification code, the code represents a specific location in a network-connected database ( 60,) being updated wirelessly ( 50 ) from the tag ( 20 ) to at least one receiver ( 40 ) connected to the position determining means and a time. Jun 30, 2019  I am a meat eater as well, but sometimes I slip back to eating something other than meat and I can feel the difference so after reading your well-written article, I am going to stick to a meat only way of eating as I feel so much better and getting tired of sabotaging myself which is a psychological thing 😉 While I will never be wearing a.

These photographs date from 1950-1990. Biographical Note.

Southern Illinois University was chartered in 1869 and opened its doors to the first class of entering students in 1874. Originally, the university was called Southern Illinois Normal University. 'Normal' Universities in 1874 were teacher's colleges, aimed at standardizing and improving public education in the state by providing more accessible college-level instruction to teachers. Southern Illinois Normal University was the second such university to be established in Illinois.

Its first president in 1874 was Robert Allyn. Subject/Index Terms. Repository: Southern Illinois University Special Collections Research Center Accruals: Series 7-11 were transferred to University Archives in from University Communications in 2009. 2014041, donated by Verner Johnson in November 2014. Access Restrictions: Unrestricted access. Use Restrictions: To quote in print, or otherwise reproduce in whole or in part in any publication, including on the World Wide Web, any material from this collection, the researcher must obtain permission from (1) the owner of the physical property and (2) the holder of the copyright. Persons wishing to quote from this collection should consult Special Collections Research Center to determine copyright holders for information in this collection.

Reproduction of any item must contain the complete citation to the original. Technical Access Note: The bulk of the collection consists of negatives created by the Southern Illinois University Carbondale Photographic Services department. A light box may be necessary for easier viewing which can be provided by the Special Collections Research Center. Preferred Citation: Item, Southern Illinois University Carbondale archives photograph collection, Special Collections Research Center, Southern Illinois University Carbondale. Processing Information: Inventoried January 1994. Finding Aid Revision History: Finding aid revised by Matt Gorzalski in November 2012.

Materials in Series 1-5 were rehoused and re-entered into Archon with updated box and folder numbers.

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. A model of scientific communication as a global distributed information system Department of Management and Organisation, Swedish School of Economics and Business Administration, Helsinki, Finland Abstract Introduction.

A formal graphical model of the scientific communication process is presented in this paper. The purpose of the model is to act as a road map for policy discussions and research concerning the process. In comparison to earlier models found in the literature this model is more detailed, hierarchical and includes more modelling constructs (activities, inputs, outputs, controls, mechanisms).

The modelling methodology used is IDEF0, a process modelling method, which previously has mainly been used for business process reengineering in the manufacturing industry. The current version of the model consists of thirty-three diagrams, with 113 different activities and over 200 different inputs, outputs, controls and mechanisms. The scope of the model is the whole communication value chain, from initial research to the assimilation of research results to improve every-day life. The model treats both informal and formal communication, as well as the publishing of data, but the major focus is on modelling the publishing and indexing of traditional peer reviewed journal articles, as well as the activities of readers to find out about them and access them.

The new business models and parallel functions enabled by the Internet, such as open access journals and e-print repositories, are also in focus. Figure 1: An illustration of the scientific communication process including facets of both the Garvey/Griffith model and Hurd's additions to it The book by Tenopir and King contains a comprehensive discussion of the scientific publication process from a life-cycle perspective and, in particular, synthesizes a large body of empirical evidence concerning the cost of different phases. An interesting slightly different viewpoint is offered by Lewison , who discusses what happens to a research publication after it has been read, in terms of how it is quoted in the popular press, influences clinical guidelines etc. Scientific communication viewed as an information system One interesting aspect of the scientific communication process is that it is a global, interconnected information system. The academic discipline, which studies the development and use of information systems in companies and organizations, is usually called Information Systems Science.

Another related but separate discipline is Information Studies or Sciences. Most researchers who have published studies of the scientific communication process and its aspects have come from the latter discipline. This study tries to combine perspectives from both these fields.

Information Systems Science typically studies information technology-systems that organizations build to support their activities. The systems can also span different organizations or be interfaced to customers (i.e., e-commerce systems). Typical for these systems is that they usually are purposefully planned and built in a top-down fashion. A good example is provided by so-called enterprise resource planning systems, which large companies build for themselves. In this respect the scientific communication system, and the information technology-support it uses, is different, because it has grown in an organic way over decades, through the integration of tools produced by a large number of different players in a non-hierarchical and uncoordinated fashion. Nobody owns or has control of the scientific communication system, just like the Internet. Large integrated information technology-systems in corporations fulfill multiple functions.

First, they support transactions, such as registering and controlling sales in an e-commerce setting. Secondly, they provide management with a basis for decision support by providing aggregate information based on often huge amounts of low-level transactions. The quarterly accounts of large companies is a good example. Also, the scientific communication process fulfills two functions. The primary, of course, is to help in communicating interesting research results to interested recipients. The secondary is to provide decision support to research administrations to help in deciding about research grants, professorial appointments, etc. In the case of scientific publishing the fulfillment of the second function has, as a by-effect, led to a situation, which strongly favors the existing system, making this area less amenable to innovations and new business models than other areas of e-commerce.

There are several stages in the development of information systems, including requirements analysis, design, programming, and implementation. In the early stages, formal modelling methods, usually supported by graphical tools are typically used. Methods typically used include data flow models, semantic data models, object models. In his book on scientific publishing and knowledge sharing Hars includes example diagrams using both flowcharts and object models.

A significant benefit of using some of these techniques is that they are supported by information technology-based modelling tools, and that they can be used as basis for more detailed design and programming in an integrated fashion. Despite the fact that the scientific communication process has not been designed but has evolved, it might be useful to model it using some suitable formal process-modelling technique. The technique, which was chosen in this work, is called IDEF0.

The traditional uses of IDEF0 models has been in illuminating current and alternative processes in business process re-engineering projects, typically focusing on the design and manufacture of industrial products like submarines or buildings. The choice of IDEF0 was partly a matter of convenience, the fact that the author was familiar with the method from previous business process re-engineering research.

Modelling methodology and scope of the model The IDEF0 Modelling methodology The main concepts of the IDEF0 method are the activity and the flow. Activities are shown as rectangles and their names start with verbs. Flows are represented by arrows and the names are nouns. A flow can be either an input, output, control or mechanism. Often the term ICOMs (inputs, controls, outputs, mechanisms) is used to designate flows.

An input represents something, which is consumed in an activity to produce an output. Typical inputs could be raw materials, energy, human labour, but also information, when the purpose of the activity is to transform the information.

Outputs can be reused as inputs to further activities, and feedback loops are possible. The carrying out of activities is guided by controls. Outputs that take the form of information can also be used as controls. Mechanisms, which point at activities from below, are persons, organizations, machines, software etc., which carry out the activities. The presentation of the IDEF0 diagrams is hierarchical in a way that individual activities contained in diagrams are broken down into further sub-activities in diagrams lower in the hierarchy.

As an example of using the IDEF0 method consider the preparation of a spaghetti meal (Figure 2). The top-level context diagram contains only one activity, describing the overall activity. On the next level this activity is subdivided into three sub-activities: prepare the sauce, cook the pasta and serve the dish. These can inherit some of the flows of the mother diagram, but alternatively new flows can appear at this level. Thus, the aggregated input ingredients from the context diagram are disaggregated on the next sub-level into several different ingredients (minced meat, etc.). An illustration of the organisation of IDEF0 models.

All models start with a context diagram, containing only one activity, which then is split into sub-activities, which in turn can be split into sub-activities etc. IDEF0 and similar modelling techniques are frequently used in process re-engineering efforts to clarify the process and propose changes in it. Using a formalized tool helps in communicating about the process. For this modelling exercise a particular tool called BPwin has been used for making and editing the IDEF0 model.

Compared to a simple drafting tool BPwin enhances the speed and consistency of the modelling work, especially for larger models and when changes are needed. In the modelling itself some rules of IDEF0 modelling have not been strictly enforced. Tunnelling of arrows (marking arrows that will not be inherited to more detailed diagrams) has not been done. Also, several possible ICOMs that exist in reality have not been indicated. The overall design consideration has been simplicity and showing the essentials, in particular concerning the break into activities. This author has seen many IDEF0 models where the task of communicating the ideas to others is defeated by too-complicated models.

Scope of the modelling work The overall aim of the modelling work undertaken here was to understand the scientific communication process and how it has been affected by the Internet, in order to provide a basis for a cost and performance analysis of various alternative ways of organizing it. The model can also work as a road map for positioning various new initiatives, such as e-print repositories and harvesting tools, within the overall system.

Although the current model also includes communication more generally, the emphasis is on publishing as traditional peer-reviewed journal articles. Table 1: Major hierarchical breakdown of the SCLC model (Not all diagrams are broken down in the paper) Only the major diagrams are shown in the table. Some diagrams are further broken down into separate activities.

In the following model walk-through each diagram is explained separately. The diagrams are numbered using the standard IDEF0 numbering scheme, which helps to keep track of the hierarchical position of each diagram. One aspect of IDEF0 modelling, which readers might notice, is the ambiguity concerning the use of information flows as either controls or inputs. A good case is the review of manuscripts. The earlier version of the manuscript is used as an input being revised to produce a better version as output, and this is controlled by the reviews.

There is no general rule for this and often either choice could be justified. Note that this version of the model is the fourth and that the model has continuously evolved based on the feedback received. The model has been renamed Scientific Communication Life Cycle Model (SCLC-model), because of its enlarged scope. The earliest published version was called the Scientific Publishing Life-Cycle model.

In addition, a conference paper and a journal article discussing parts of the model have been published. Version 3.0 of the model has been posted on the Web pages of the Open Access Communication for Science project. Model walk-through A-0 Do research, communicate and apply the results - context diagram This is the so-called context diagram for depicting the overall model. The context diagram is traditionally the starting node of all IDEF0 models, and contains only one activity describing the overall process. The philosophy of this diagram is to show how science as a global knowledge creating and sharing system can help improve everyday life as well as create new scientific knowledge, which is fed back into the existing body of scientific knowledge. The main participants in the process are collectively shown as a mechanism arrow coming into the activity box from below, and the main drivers controlling the behaviour of the participants are shown coming in from above (scientific curiosity, economic incentives). Also, scientific problems to be addressed by the research and the whole accessible body of existing scientific knowledge are seen as controls.

From an academic viewpoint the main output is new scientific knowledge. From the viewpoint of society that funds research the most important outcome is better quality of life. A0 Do research, communicate and implement the results - breakdown This diagram is crucial for understanding the life-cycle view adopted in this modelling effort. The whole life-cycle is seen as consisting of four separate stages. Fund R&D is included in the model as a separate activity. One reason for this is the importance research funders (understood in the widest sense including basic university funding) have in the shaping of the scientific communication chain, since they, through research contracts and university guidelines, have a strong indirect influence on where researchers choose to publish their work.

This can for instance be seen in the recent mandates and recommendations of the NIH, Wellcome Trust, Research Councils UK or Finland's Department of Education. Perform the research is the most resource demanding part of the system. Communicate the results is the most extensive part of the model. The end result of this activity is called disseminated scientific knowledge, reflecting the viewpoint that scientific results which have been published, but which are not read by the intended readers are rather useless. The downstream activity apply the Knowledge is important in order to achieve the improved quality of life which research funders mainly are looking for.

A1 Fund R&D The global scientific communication system fulfils two functions; one is to communicate the knowledge as efficiently as possible. The other is to act as a decision support system for university administrations, granting agencies etc. This part of the model depicts the decision support functions of the overall system. It is important to include in the overall model, since certain aspects of this part, for instance the use of journal impact factors as a proxy for quality, constitute strong barriers for innovations in the communication parts of the overall system. Funding decisions are here understood to include both decisions about basic university funding (e.g., the UK research assessment exercise), decisions about individual research grants and academic appointments. The process can be seen as consisting of three separate parts, of which the evaluation of research proposals only applies to the decision-making about individual project applications. A11 Evaluate prior research of applicants This diagram shows more in detail the part of the global information system that acts as a decision support system for university administrations and research funding organizations.

At best, the publications themselves are assessed by peers, but very often due to time and resource constraints the status of the journal where a researcher has published is used as a proxy for quality. Citation counts, using a system such as the ISI Web of Science, provide a reasonably objective measure of the impact of a particular publication, but only after a considerable time lag.

The uploading of the metadata of a publication to a CRIS (Current Research Information System) is interesting from the information system development viewpoint, since the author is usually asked to do this, and since it would be very useful to integrate the CRIS system with the institutional repository of the same university. CRIS systems are used in Finland, for instance, to produce the statistics that the Department of Education requires from all universities. A2 Perform the research This diagram shows a highly simplified view of a typical research project. Note that one important feature of IDEF0 diagrams is that the consecutive activity boxes do not necessarily imply a strict order in time as in scheduling methods. Thus, the activity study existing scientific knowledge can go on after the other two activities have started. The important thing is that it provides input to these. Clearly this is only one possible way of looking at the research process.

The reason for choosing this view is that it clearly distinguishes the knowledge acquisition activity, which also is the topic of the later stages of the whole model. Here it is seen as providing input to the research that produces new scientific knowledge, whereas the later stages of the model show how other researchers utilize the results of this research for their own separate research projects. Note that, according to studies of their reading habits, academics spend around two to three months a year retrieving and reading scientific literature, in particular journal articles. The efficiency of this activity, in terms of minimising the time and efforts spent on search and retrieval and in terms of being able to identify and getting access to the most relevant literature is the central issue of this modelling effort.

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A3 Communicate the results The scientific communication process is divided into an informal and a formal part. Informal communication is carried out in the form of oral presentations of all sorts (person-to-person meetings, conference presentations) as well as e-mail messages, whereas formal communication (publishing) relies on written texts and on quality control by peers. A central difference is that in informal communication the producer of the information usually has full control or awareness of who the recipients are (e-mails to selected colleagues, presentations at seminars, etc.). In science, formal publishing usually has a highly specific meaning. It is often carried out in peer-reviewed outlets (working papers of universities, for instance, are usually not included) and, in particular, it is assumed to establish priority of new discoveries. In the model a more functional view is taken, where the pre-stages of formal publishing (working papers, posting manuscripts to preprint servers etc.) are lumped together with traditional formal publishing.

This diagram takes into account the fact the scientists not only publish traditional-looking textual accounts ( papers) but also data and models. Examples of the latter could include astronomical observation data, virtual reality models of historical artefacts, genome charts, and computer code. Until now the Open Access movement has mainly concentrated on facilitating access to the textual account of research results, in particular the peer reviewed journal literature, but unrestricted access to research data and models is currently receiving increasing attention. A32 Communicate the results through publication This part of the model is split into four different parts. The first part, publish the results, consists of the activities which contribute to the communication and initial publishing of the results, typically involving the researcher himself and a publisher. The facilitate dissemination activity describes activities carried out by a large number of organizations such as information intermediaries, libraries, as well as information technology infrastructure such as Web search engines that facilitate for readers to find out about and retrieve publications of interest.

This is in contrast to the informal communication where the author usually is directly communicating with the recipients of the information. The third part of the communication chain is carried out by the recipients of the information in searching for, retrieving and studying publications. In any life-cycle studies this part is extremely important, and it has also been profoundly affected by the Internet. The last part consists of the activities of readers in communicating further particularly valuable research results, through citing them, incorporating them in university textbooks etc.

A321 Publish the results Publishing consists of two separate activities, the writing of the manuscript, which the researcher carries out alone or in a small group, usually taking into account feedback from colleagues, and the more formal publishing process, in which outside persons, such as conference organizers, journal editors and staff etc. Note that a manuscript intended for later publication can have a later life of its own, since it can be uploaded to open access repositories on the Web. The writing of the manuscript is guided by a control called scientific writing style, which is a label used of a collection of formal guidelines and informal tradition taught to students by supervision of their work by more experienced academics. The production of a proper publication in turn is partly guided by the norms of the scientific community (which journals to publish in, etc.), partly by commercial considerations (what journals have been established, decision to publish a particular book). In order to highlight the importance of the choice of where to submit a journal paper, a separate activity for choosing where to submit or negotiate publishing has been inserted in the middle of the chain. A3213 Produce publication At this stage the model is split into three parallel tracks which all take the generic manuscript as input.

The term monograph is used to denote scientific publications which usually are published by the university of the researcher and which are not part of a scientific periodical journal or conference proceedings. Typical examples include working papers, research reports and Ph.D. In some cases monographs might also be published by commercial book publishers, if there is a market demand. Monographs constitute a more important channel for communication in the arts and humanities than in science, technology and medicine. Conference papers are subjected to some sort of external review either for the abstract or the full paper, and are usually presented orally in addition to the printed version. Conference proceedings are published as one-off books, CD-ROMs or as annual series. Conference papers are also increasingly posted openly on the Web by the organizers.

Articles in scientific periodicals are subjected to peer review. It is important to note that periodicals articles have a higher likelihood of being referenced in bibliographical services than the other types of publications. Also journals are usually available by subscription whereas the access to monographs and conference proceedings is predominantly acquired on a case-by-case basis.

A32131 Publish as monograph In the model three types of monographs are distinguished. Reports are typically produced by government or private research laboratories and sometimes by university departments. In the past such reports have mostly been sold individually but nowadays they are increasingly put freely available online, since they offer a good marketing mechanism for the responsible research organization. Doctoral theses are a rather special case since they usually undergo a rigorous quality control and are rather lengthy compared to reports, not to mention articles. Increasingly universities are putting them into their institutional repositories. Books printed by commercial or society publishers are a third important category.

These can benefit from the marketing and indexing channels of the publisher, but the decision to publish is also strongly based on commercial considerations, in contrast to the two earlier modes. This diagram uses an abstraction mechanism frequently used in the model. The outputs Report, Thesis and Book are separate outputs but merge on the higher level diagram to form the super-type Monograph (A3213). A32133 Publish as scholarly journal article The purpose of this diagram may at first sight be difficult to understand. The idea is to show all the activities, which are carried out by the publishing organization, and thus have a cost associated with them. This is the reason for separating out activities such as Do general publisher activities, do general journal activities. Both of these demand resources, which cause overhead costs, which then are added on top of the basic variable costs caused by the processing of each individual article (as defined in the activity process article).

For instance, setting up and maintaining the information technology infrastructure for a portfolio of journals could be such an overhead-causing item. In addition to the technical output the different revenue streams that journal publishing is generating are also shown. The main pipeline in the model is, however, the input arrow article manuscript, which directly enters the activity process article.

This provides the root for a rather straightforward work-flow-like model of what happens to a manuscript on its way to publishing. A321332 Do journal specific activities The activities modelled on the level of the individual journal title, but not the individual submissions or articles, include general marketing both to subscribers and authors, negotiations for subscriptions and the management of them, as well as the planning of the journal (for instance special issues, editorial board). Interesting parameters, which are set on this level, are the pricing of subscriptions, which have a strong influence on the number of subscribers a journal reaches. Subscription sponsors can for instance be drug companies, which subsidize the personal subscriptions of practicing physicians. Many of the activities on this level are typically (but not always) handled by the employed staff of the publisher. Part of the activities are also handled by the academics involved in a journal, in particular by the editors.

A321333 Process article This diagram starts by the review activities carried out as a co-operation between the editor, the researcher and anonymous peer academics. This activity demands resources but is usually not a cost item of significance for the publishers since reviewers usually work for free (from society's viewpoint, however, it is a significant cost item). The input consists of submitted manuscripts and output of accepted or rejected manuscripts. Note, in particular, that a significant proportion of manuscripts rejected by one journal are resubmitted as such or with minor revisions to other journals and thus continue adding cost to the overall total. The last activity in the diagram includes the technical activities needed to publish the article. These are usually well described in the cost accounts of publishers. In between these two minor activities of particular interest from an open access perspective have been inserted, the signing of a copyright agreement and the payment of possible article charges.

In relating cost to the activities in this figure it should be noted that the costs of the technical phases are highly correlated to the number of accepted papers, whereas the cost of the peer review stage is more related to the number of submissions. Thus, journals that have a high rejection rate of say 90% have a much higher overall cost per published article than, say, journals with a rejection rate of 50%. A3213331 Do peer review This part of the model depicts the activities carried out during the traditional peer-review process. Note the use of a feedback mechanism, where the reviewers' comments become a control of the subsequent revise manuscript activity, and where the revised manuscript is fed back into the review process.

There have been interesting experiments with new forms of quality control using the Web, where for instance manuscripts are made openly available on a journal site and readers 'vote' on which should be promoted to accepted papers. Nevertheless it seems that in the near future the current model will prevail. The peer review part of the overall process is interesting because of the way it operates and is financed. It is a good example of the generic type of peer production that, due to the Web, is now beginning to have more and more impact in certain niche domains of information and cultural production (e.g., Open Source software and Wikipedia). A3213334 Do technical phases of publishing After a manuscript has been accepted a number of activities take place. One is the final proof-reading and copy-editing of the manuscript to improve the language and detect minor technical errors. Note in particular the value-decreasing activity of queue for publishing, where fully processed articles have to wait for several months due to the issue scheduling of the journal.

Waiting does not imply a direct cost, but there may be an important opportunity cost involved from the viewpoint of the researcher and society, since the results are poorly spread before the actual publishing. This opportunity cost is different for different domains of science. It might be low for the humanities but is usually higher in the science, technology and medicine domains. This has been a strong motivator for the founding of both e-print archives and electronic open access journals. Open access journals that are not issue based cut down this waiting time to a minimum by publishing an article when it is ready. Subscription based journals, which appear both in print and electronically, nowadays also sometimes post accepted papers even before formal publication on their publishing platform, thus offering a partial remedy to the queuing problem. A32133344 Duplicate and distribute article This diagram models the two parallel activities of publishing a print and an electronic version of an article.

Paper publishing involves the traditional printing and distribution activities, which have a much higher marginal cost per copy produced than electronic publishing. Pure paper or pure electronic publishing can be obtained as subsets of this part of the model. Many of the bigger publishers nowadays publish both paper and electronic versions in parallel. The central difference between paper and electronic publication is that paper (in this context) necessitates a revenue model of subscriptions or pay-per-view, whereas electronic publication, because of the almost zero marginal cost of additional readers, can be used in conjunction with a larger variety of revenue models. A322 Facilitate dissemination and retrieval This is the part of the overall process, which traditionally to a large part has been handled by intermediaries and research libraries. In this diagram the process has been split into two sub-activities in which the first models activities carried out by different infomediaries, typically only once for the whole world market, and the second the activities carried out in the local organizations of the readers, thus typically hundreds or even thousands of times for each article or journal issue. The preserve publication activity is currently receiving increasing attention, since the archiving of electronic versions of journals for decades implies a number of problems.

National libraries in many countries are getting involved in this. The long-term preservation issue is both technical and organizational, since the subscribing libraries no longer get to possess physical copies of the material they subscribe to. Often, it is unclear in the licensing agreement what happens if they cancel an electronic subscription for access to older material. Also, the responsibility of publishers in case of mergers or cancellation of titles is accentuated for electronic material.

A3221 Facilitate retrieval globally This diagram includes a spilt between open access material, which can be either in the form of manuscripts or copies of formally published papers posted in e-print archives, and in toll-gated material. For purchasable material a further spilt is made into secondary publishers who bundle full-text material from several different sources (an example is EBSCO) and sell it to libraries, or indexing services, which help in the retrieval function. Note the importance of the copyright agreement for an individual publication, which acts as a control of the posting of a copy to an e-print archive. The third sub-activity of this diagram shows the integration of the metadata about a publication (including a possible Web address) into different sorts of search services, whether free or subject to subscriptions. This is where tremendous developments have taken place in the last few years.

The control activity of such services are different sorts of standards for the semantics and syntax of metadata. A32212 Make manuscript or copy of publication available openly on the Web This diagram depicts the different options available to an author for posting a manuscript or a copy of the actual publication in an open access archive. Three main options have been modelled, posting on one's own home pages, in the institutional repository of one's organization or in a subject-specific repository (e.g., ). In practice, the flow of manuscripts or ready publications differs for these three alternatives. Theses are regularly posted in institutional repositories and subject specific repositories, in the early days in particular, have been populated by copies of manuscripts submitted to journals or conferences (hence the name preprint repository).

The controls of these activities are quite interesting. They can consist of reward mechanisms, behavioural norms and, in the case of repositories, also direct mandates by research funders and universities that require posting copies of publications in such repositories.

Finding the proper mix of controls will be a key success factor for repositories. A32213 Integrate meta data into search service Traditionally subscription-based indexing services have dominated this function. Over the past years researchers have increasingly started to use general Web search engines for identifying and retrieving interesting publications. An effort to overcome the quality problems related to using general search engines, is the definition of the Open Archives Initiative (2006) standard for tagging scientific content material on the Web, which will enable dedicated harvesting search engines to maintain a much more focused database of links to relevant publications.

A by-product of the heavy use of information technology for these purposes is the possibility for readers to subscribe to services, which (based on the interest profiles they define) can send them alerting e-mail messages when something they might be interested in is published. A3222 Facilitate retrieval locally This diagram shows the activities carried out by the organization in which the reader works to facilitate access; for instance, the university library of the reader.

Note the inclusion of a separate activity for the negotiations that the library carries out in order to obtain the necessary licenses (the activities by library consortia could be included here as well as a sort of overhead cost). The negotiations sub-activity also includes collection planning, making decisions about which journals to subscribe to, etc.

One of the biggest changes that electronic publishing has brought is the dramatic reduction in the activities to make paper publications available inside the organizations. On the other hand libraries now have to use substantial resources to build intranets, which seamlessly organize all the heterogeneous electronic material they have bought licenses to (also to solve the problems of distant access for faculty members or students working from home). A323 Study the publication This diagram structures the activities of the readers of scientific publications.

Note that, from a cost per publication viewpoint, the activities of individual readers all over the world and over the whole life cycle of a publication's readings should be summed up. The find out about the publication activity results in the output metadata of the publication (including the location from which the paper or electronic version can be retrieved). This output is used as the control of the retrieve publication activity.

If the publication is not already available through a subscription or as open access a decision has to be made weather it is worth the monetary cost and effort to purchase a copy. Often this can be done at a cost of say twenty to thirty US dollars for articles. One important factor, which nowadays might negatively affect a decision to separately buy an article, is the delay in getting it. Also the researcher may have to pay such acquisitions directly from his own budget which usually means that the barrier for obtaining it are higher than if it was already a part of central library licenses. Finally the publication is read and the scientific information in question has been disseminated.

Researchers often self-archive interesting publications they have read either as paper copies or today increasingly as bookmarks or in a database. They may also use citation-tracking applications such as Endnote to keep track of literature they are likely to reference later on. A3231 Find out about the publication This activity is rather difficult to split up into alternative parallel options.

On this first level there is, nevertheless, a split into two generic categories; active search (pull) where the reader is pulling for information and passive push, where the reader receives a notification through some mechanism that something interesting has been published. The pull activities are guided by the information search habits of the researcher in question and the main vehicle today is the world wide Web, and the various search engines and dedicated search facilities on offer, including the intranet of the local university library, which offers a search facility of the locally subscribed publications. The push variety has been greatly enhanced because of e-mail.

Most researchers regularly follow a handful of journals and screen everything published in them, at least on the title or abstract level. In the print world this was achieved by getting physical copies of the journals, either as personal subscriptions or as a node in the internal circulation in a university department, but today the same functionality can be achieved faster by e-mailed tables of content. A32311 Search for interesting publication The first modelled option of the pull variety is a traditional bibliographic database search, for instance using keywords.

Other possibilities include more unstructured Web searches using a general search engine or just browsing from one hyperlink to another. The traditional method of physically browsing the bookshelves in a library is used less and less. The pull variety is much used by students when they are working on a thesis and in the pre-study stages of a research project, to find out what has been written about a subject.

It is less used by senior academics and practicing physicians, who more tend to read for current awareness. A32312 Be alerted to a specific publication The important distinction between pull and push is, that the bibliographic search (pull) is triggered by the researcher himself, whereas in push the hint is coming from the outside. Tracking a reference in another publication and retrieving the full text is very common. In practice a lot of references are not followed up, if the potential reader finds that access is blocked due to a lacking subscription. From society's viewpoint this means an opportunity cost, since the reading not done could potentially have been an important input to further research or other activities. Browsing a journal issue which is physically circulated in an organization is less and less common as libraries convert to electronic site licenses, but almost the same functionality is achieved by e-mailed tables of content, which offer the additional advantage of no delays.

The number of personal paper subscriptions have decreased in recent years, expect for certain fields such as medicine. The option remember existence of previously read publication is modelled because this is sometimes used as the basis for retrieval. A3233 Retrieve publication The basic split has here been made between the retrieval of a copy of a paper publication and one in digital form. Although the two activities modelled here may look straightforward, they might become rather complex in reality.

Underneath retrieving a paper copy is a complex infrastructure of library organization and storage of material, and electronic retrieval can on the software side become quite complex, especially for material not openly available on the Web. From the viewpoint of the individual researcher this is an activity where the developments with the Internet have had huge impact. A large part of the research literature is now virtually within easy reach, in fact just a few clicks and keystrokes away. A3234 Read and process publication This diagram, which also could be called assimilate the knowledge, shows the activities a reader typically does.

A typical pre-processing activity is making a printout of an electronic publication (usually an article) for easier reading and annotation. A typical post-processing activity is storing a copy of an article found to be particularly interesting, as the recipient integrates the knowledge into his or her personal 'store of knowledge'. The storage could be physical, by putting photocopies in folders in one's file cabinet, or electronic, by storing full text files or just Web bookmarks on one's computer. The reading itself can be on many different levels, from superficial browsing to determine whether an article is worth attention to very detailed reading and annotation.

This aspect has not been further detailed in the model. A32342 Read the publication Since readership and dissemination patterns differ a lot for different categories of readers of scientific publications, the model has here been split up into different activities for the perceived main categories. Academic readers tend to read for research purposes. They are usually well supported in terms of large collections of journals that their university provide paid access to. An important subcategory are students, who do not do research themselves, but who, in certain fields, read a lot, as part of assignments etc.

Company experts read in order to carry out industrial R&D and develop better products or enhance the operations of their companies. The usage levels vary a lot between industries. Practicing physicians represent a very large volume of readership of scientific journal articles, because they need to constantly keep in touch with the latest developments.

Also the journals they read tend to have very large subscription bases and they often get personal paper copies at very reasonable prices. The general public also is some cases follows the progress in science. Here is one area in which open access could have a significant effect, since general libraries, as yet, have been able to provide very limited access to the research literature. One important subcategory of readers consists of government officials and politicians. A324 Publish secondary account of the results A small part of all new scientific publications has a lasting influence on the development of science.

From a communication perspective this is achieved by other scientists referring to the results in their own publications through citations. These enable other interested scientists to find out about the results and retrieve the quoted publications. Also, the results may become incorporated in the standard textbooks of a field and they may be reported on in articles and news items in the mass media. A4 Apply the knowledge In the same way as the breakdown of the research itself, this diagram is more of a contextual nature. It tries to show how disseminated scientific knowledge can be transferred by several parallel mechanisms into better industrial performance, new products and services and eventually a better quality of life. This is an aspect of scholarly communication, which for instance is discussed in a recent Australian report , where the estimation of the impact of the increased readership caused by open access on use of the results in industry and society in general is attempted.

One of these mechanisms is education and training, which results in better-trained professionals who go out into working life (i.e., medical doctors and engineers). There is a rather straightforward link between research and especially university education. A second mechanism is through commercial development work, which translates research results into new products, services and working methods.

An important sideline of this is the patenting of inventions, which exerts a very direct control on the application of the results of science in practice, as well as standardisation. Another mechanism is where individual citizens read research publications and are directly affected by them in their behaviour or quality of life. Yet another is where research results as reported directly or indirectly, influence laws and government actions (for instance taxation, public spending). A41 Educate professionals One aspect of the use of scientific research literature is its use as part of the teaching material used in university level education. Traditionally, there have been certain rules as to photocopying research articles, to which the university has subscriptions ( fair use).

The availability of articles as open access clearly facilitates their use in courses and parallels the development called open course-ware (a term originally coined by MIT), which is concerned with the teaching material (course texts, presentation slide, etc) developed by teachers. A42 Regulate industry and society Disseminated scientific knowledge has a big direct and indirect influence on a number of measures, which influence industrial development and daily life. To quote some examples:. Research on the stability of steel and concrete structures in civil engineering has influenced building regulations and standards. Research on global warming and its possible causes has influenced public policy (Kyoto agreement, emission trade between power utility companies). Economics research, for instance the work on Keynes, has hade a huge influence on fiscal and monetary policy.

Patenting is a very important and highly debated mechanism for protecting the rights of companies making discoveries. Thus the access to both patent information and the possible underlying research publications is very important. In particular in areas such as genome research and the development of medicines this is a central issue. A44 Apply in practice This diagram should be read in parallel with diagram A32342 (Read the publication), which splits up the readership of scientific publications into a number of generic categories. The diagram shows the beneficial after affects of the disseminated research knowledge (excluding the feedback effects of science itself). Thus better awareness of the latest research helps doctors in the diagnosis and choice of treatments and medicines for patients. Better awareness of say the latest management theories may help the senior management in companies to the development of company practice.

And better knowledge of scientific results may either help the general public in doing better informed decisions in for instance energy saving matter, or may be a value in itself (self-improvement as an end in itself).