International Association for Promoting Geoethics Nigeria - Official blog

Geoethics at the 35th IGC

Programme of the IAPG scientific events

35th International Geological Congress (IGC)

Cape Town (South Africa), 27 August-4 September 2016

The IAPG call for abstracts at the 35th IGC was successfull, with 37 abstracts accepted: 30 orals and 7 poster presentations scheduled into 6 oral sessions and 1 poster session (subject to finalisation by the Scientific Programme Committee). Moreover, IAPG has organized a panel session to discuss on several key topics of geoethics.

Session T12.1 "Geoethics - General Aspects".
Session T12.2 "Geoethics and Geoscience Organizations".
Session T12.3 "Geoethics - Teaching, Training and Communication". 
Session T12.4 "Geoethics - Case Studies".
Session T12.8 "Geoethics and Resources Needs for Future Generations - 1".
Session T12.9 "Geoethics and Resources Needs for Future Generations - 2".
Panel Session T12.5 "What's the Point of Geoethics?".
Poster Session T12.P2 "Global Geoscience Professionalism and Geoethics".

Sessions take place on 29, 30 and 31 August 2016 (Orals in the Room MR 2.41-2.43, Posters in the Exhibition).

Session T12.3 is a joint initiative IAPG - International Association for Promoting Geoethics and TG-GGP - Task Group on Global Geoscience Professionalism of the IUGS.
Sessions T12.8 and T12.9 are a joint initiative IAPG - International Association for Promoting Geoethics, GSL - Geological Society of London, EFG - European Federation of Geologists and EGS - EuroGeoSurveys.

Title of presentations, speakers, date and time, posters and other information are available at: http://www.geoethics.org/35thigc.html

Cape Town

International Association for Promoting Geoethics Nigeria - Official blog

What's Up Citizen Scientist?

by Martin Bohle

Martin Bohle

Corresponding Citizen Scientist / IAPG

http://www.geoethics.org/ccs.html

Disclaimer: My views and not of my employer.

Above picture from: www.lakegeorgeassociation.org

Introduction

Why "citizen geoscience" or "citizen earth scientists" should be a feature of modern geosciences? Why is the encouragement of geocitizen-scientist opportune when considering geoethics?
The reader looking for an account how citizen science activities evolved and a definition of it, such as "scientific work undertaken by members of the general public, often in collaboration with or under the direction of professional scientists and scientific institutions" may refer to the respective entry in Wikipedia. Also, the European Citizen Science Association offers principles of good practice in citizen science. 
At the very conceptual roots, 'geoethics' and 'citizen science' have a clear relationship. Namely, when 'geoethics'

• "consists of research and reflection on the values which underpin appropriate behaviours and practices, wherever human activities interact with the Earth system", and 
• "deals with the ethical, social and cultural implications of geoscience education, research and practice, and with the social role and responsibility of geoscientists in conducting their activities" (quote from IAPG outline of "geoethics")

then 'geoethics' is as much about citizens as it is about geoscientists, their various lifestyles and different professional conducts, respectively.

Geoethics, Geosciences & Citizen Science

The relationship between geoethics and citizen science is enshrined in the generic application case of geoethics, namely "appropriate behaviours and practices, wherever human activities interact with the Earth system." 
Interactions of human activities with the Earth system are ample, are very close to citizens' daily lives, and often do not involve a geoscientist acting in professional capacity. Geoscience know-how is firmly knotted into many day-to-day activities of modern societies and the design of contemporary production systems and consumption patterns. To a considerable degree, the related engineering works are applied geosciences.
Let's recall; within the first decade of the 21st Century, it became evident also for the wider public, that humankind has built throughout its history an anthropogenic bio-geosphere, i.e. the 'Anthropocene' [Foley et al. 2013, Waters et al. 2016]. This 'human niche' [Ellis 2015, Fuentes 2016] was constructed through more and more effective engineering of production systems, patterns of consumption of resources, which transformed the natural environments. The ongoing process of accelerated anthropogenic global change is a genuine part of a historical process of niche construction. People's activities systematically intersect the bio-geosphere for the purpose to maintain people's well-being, mutual care-taking, and reproduction.
Examples to illustrate this perspective are many, such as:

1. Civil engineering is about building visible intersections of the geosphere and economic activities; e.g. dredging a waterway, building a bridge or constructing a hydropower plant. 
2. A less visible intersection is the design of production systems and consumption patterns, which couple human activity and the bio-geosphere through fluxes of matter and energy. 
3. Urban dwellings may serve as a further example; they are a visible intersection with the bio-geosphere and on they are coupled with the bio-geosphere through massive fluxes of matter and energy; e.g. receiving drinking water and ejecting waste water, receiving electric power or fuels and ejecting heat, receiving food and ejecting manufactured goods that at the end of their life-cycle are discarded or recycled elsewhere on the globe. 
4. As more as technology evolved as more convoluted get the involvement of geosciences, such as renewable energy from the wind and solar, local weather forecast of thunderstorms, sea wave forecast for shipping, or global position systems shielded against solar storms.

The comfortable 'human niche' requires a well-functioning bio-geosphere. Such well-functioning may get disrupted to our disdain by natural hazards. Also, it may be threatened by people's acts when natural mechanisms, such as slope stability are ignored. In that sense, geoscience know-how is an intangible public good that is paramount for the well-being of citizens, at least in modern societies.

Against the backdrop that geosciences knowledge is paramount for the well-being of people, citizen geoscience is a very timely and appropriate undertaking of empowerment. Considering professional geosciences; citizen geoscience is complementary to i) the core of professional activities, ii) outreach and communication activities, and iii) commitment to "responsible science and research". 
What science policy circles is debated under the label "responsible science and research" refers to a wider set of activities, which intend to put any research into its respective societal context, just as it is appropriate for a knowledge-based society. In that context, the very subject of geosciences and direct relevance of its professions for the functioning of society make the relationship between geosciences and citizen science evident and therefore makes geoethics essential for the daily life in the 'human niche'.
A specific example how the citizen science component evolves in contemporary geosciences is provided by the European Seismological Commission (ESC).  To outline the role of citizens in modern geosciences the ESC calls contributions on citizen science to its 35th General Assembly (September, 2016 in Trieste, Italy): "...social networks have multiplied the direct interactions between individual seismologists and citizens. Observational seismology has entered schools where they can detect signals from large global earthquakes and do real science with real data. Doing real science is one of the goals of citizen science projects alongside augmenting data collection and crowdsourcing observations on earthquake phenomena... These developments change the way we, as scientists interact with society. They present significant opportunities to transfer the value of scientific research to citizens..." and thus to society.

Past and Contemporary Science & Involvement of Citizens

The insights into the particular relationship between geosciences, geoethics and citizen science in contemporary knowledge-based societies facing anthropogenic global change, lead to more general thoughts about the changing role of scientists and researchers in the society.  Sketching out that role in historical retrospective is useful because it illustrates the particular relationship between geosciences, citizen science and geoethics.
Considering the history of science from a lay-public perspective, the modern European science endeavour started in the Renaissance.
At those times, a minuscule fraction of the still tiny urban elite undertook research of natural phenomena. Many of these enlightened persons, Leonardo da Vinci possible one of the best known, conducted multi-facet activities such as developing techniques for art, studying nature and conceiving engineering works. These individuals were serving powerful leaders who provided the resources.  
At those times, new insights trickled only slowly into the daily dealings of citizens, although their effect can be traced [Mensing et al. 2016].

It took about two centuries of further social, economic and political developments, and then some members of the noble gentry (men and women) and bourgeois city-dwellers lead the science endeavour. During the same period, a network of European universities and other higher education bodies had developed, which was funded by the society. Still, it was a small group of privileged persons that undertook research of natural phenomena. Often these individuals used part of their personal wealth to support their studies, research or explorations, notwithstanding the very important roles of wealthy sponsor, of prizes such as the 'longitude prize', and of governments' investments into infrastructures (bridges, roads, channels), mining-technology, and means for power projection.

Still, research results, scientific findings and technological developments got used only slowly; and, as a side effect, the mantra of objective and detached science was coined. Although the daily doings of citizens did not evolve much due to new insights or discoveries, the activities of the state authorities evolved; mercantilism and enlightenment were the buzz-words. However, any modification of standard practices had to master a long-lasting process of trial and error before it was accepted by the citizens [Fressoz 2012]. The lasting elapses of testing should be seen as positive because they served to make insights and discoveries 'fit for practice' within the realm of societal doings.

Since then, in the wake of emerging capitalistic production forms, the social basis of endeavour into research, science and technology did broaden much. This change can be measured as well by counting the number of scientists as also by the wider interest in applying discoveries and technological developments. However, only after the Second World War the number of researchers, scientists and engineers did explode; possibly 90% of all scientists that ever lived are living today. Nowadays in developed countries several percent of the population work as researcher, scientist or engineer. 

This very recent steep increase of 'scientific workforce' is the basis of the surge of scientific-technical knowledge of the late 20th century. Combined with the eagerness to apply the scientific-technical knowledge at a large scale and rapidly the world of the 21st Century (western counting) emerged.

Global Change, Citizen Spectator & Citizen Scientists

Fed by the rapidly increasing knowledge, the ongoing scientific-technical revolution and its industrial-societal expression leaves huge parts of the societies and their governments in the simple role of a spectator; just as in the past with the difference that the spectator far more rapidly gets drawn into the game. 
This passive role (i.e. spectator) is a substantial risk because of i) the speed, breadth and depths of the contemporary change processes and ii) the less-noticed interferences of these multiple change process in the daily societal doings. Notwithstanding, the challenge of the speed, breadth and depths and mutual interferences of ongoing change process may be a singular opportunity if faced appropriately.
A useful metric of the risk-taking, which is taken regarding the current change process in the material basis of the society, is the momentum of the anthropogenic global change process of the bio-geosphere, which we witness nowadays. This change, which got baptised "great acceleration", possibly runs up to case that geologists like to re-name the current geological times 'Anthropocene'. what the geologists decide for their professional use, the notion 'Anthropocene' is already a quite common intellectual staple that is driving debate in many scholarly circles, public audiences and has led to a fascinating rethinking of how to understand humankind in the world.
In retrospective, the ongoing societal and economic processes that change the dynamics of Earth systems could gain such a strong momentum because the early signals were not captured by the society and governments, although that research had identified them. The depletion of stratospheric ozone and its handling is possibly the exception [Wu et al. 2013]. As the climate change debates show, first signals got lost; and once signals were captured it took much work and time to agree on 'what to do', hopefully. The now unfolding anthropogenic global change will cause significant adjustments to people's living conditions in most parts of the globe. To tame these change processes, as far as possible, much geoscience know-how will have to be deployed in a socially sustainable manner.  

Other dynamics of change of a comparative vigour than the anthropogenic global change process in the bio-geosphere are shown, for example, in fields like information technologies for 'artificial intelligence' or bio-technologies for 'synthetic biology'. Anyhow, to what degree dynamics of change are comparable; the vigour of change in knowledge-based societies requires better linkages between researching, scientific study, technological development and 'ordinary' societal activities. Research, study and development in cooperation with citizen scientists would provide additional linkages. Subsequently, it should limit societal risk-taking to miss early signals about changes that likely modify citizen's daily life.
Considering citizen scientists as a possible resource; many people initially take a scientific education for another profession than doing research, scientific study or developing technology. More people are experience-based practitioners in matters that are researched. Thus, the number of people (i.e. citizens) that could get involved with research, science or technological development is bigger as the core of active researchers, scientists and engineers. Given that situation, these citizens are both an ancillary workforce, i.e. a crowd of experienced partners, and sources of additional insights that are rooted in their work and life experiences. Citizen scientists can bring these other insights into the research-science-technology endeavour. Also, through such participation the interferences and aggregated impacts of various intersecting change processes should get witnessed more early.
When considering the contemporary situation (i.e. of a knowledge-based society), namely that research results, scientific findings and technological developments rapidly get applied citizen science may be a test-bed for new insights and discoveries. Obviously, nowadays much testing is done before discoveries get applied; this is part of the research and technological development, and wide-ranging regulations frame these tests. Nevertheless, little testing happens in a comprehensive societal context following lines of conducts that are similar to 'clinical trials' in medical research. Furthermore, a test of research results, scientific findings and technological developments through trial and error as part of the daily societal practice may not be practical or even unethical. The downside of that situation is that the daily dealings of citizens may get changed much, the changes may come with little involvement from their side, and particular involvement upstream to the choices that will drive these change may be missed. Such a situation is a perfect receipt for frustration, resistance and obstruction. Given that situation, more comprehensive insight into the application of science, research and technological development is needed, which does both, it relates to daily practice and involves the citizen actively. Citizen science is a means to gain such insights for the benefit of both, the research providers and the public.

An example of the possible benefits of citizen science is offered by the change process that the global bio-economy likely will mean for reaching the Sustainable Development Goals as El-Chichakli and colleagues [2016] write [p.222]:  "A global bio-economy must rebuild natural capital and improve the quality of life for a growing world population. It should balance managing common goods, such as air, water and soil, with the economic expectations of people. Three types of innovation will be needed …Also needed will be citizen-science evaluations [my underlining] of new houses, local wood-recycling and construction efforts. Sustainable food systems will require advances in plant breeding, food products, and farming and cultivation techniques ….Inclusiveness and knowledge transfer are important."
Beyond noticing the limited scope of citizen science in bio-economy, as expressed by the authors, what should be questioned, the link between bio-economy to geosciences it is noteworthy. The link is made evident through referring to "common goods, such as air, water and soil" or "farming and cultivation techniques" that are essential geo-features of the 'human niche'.
As for many features of contemporary production systems and consumption patterns, the quote above provides evidence that their link with geosciences is seen implicit, at the best. Possibly, for most, it passes unnoticed although global bio-economy designed to "rebuild natural capital and improve the quality of life" actually means engineering at planetary scale. What that could mean regarding anthropogenic global change is witnessed by the modification of the global nitrogen cycle that happens – somewhat unnoticed – since the beginning of the 20th Century [Morton 2015]. More practice of citizen sciences in geoscience projects should be a means to counter such negligence of otherwise knowledgeable people.

Summary: Citizen Geoscience is applied Geoethics

Water and colleagues [2016] in their paper "The Anthropocene is functionally and stratigraphically distinct from the Holocene" stresses the relevance of functional change. It is the behaviours and practices of people that are built into production systems and consumption patterns of our societies, which bring the interactions with the Earth system, which result in this functional change of Earth dynamics, in turn. Under this perspective, a perspective of an anthropocentric Anthropocene, i.e.; human niche for a global population of billion people, geoethics is a common good that needs citizen involvement.
Therefore, to mention "appropriate behaviours and practices, wherever human activities interact with the Earth system" as the general application case of geoethics, is crucial. Subsequently, fostering citizen science may be part of the professional activities of any geoscientist. It is applied geoethics.

Literature

Beate El-Chichakli, Beate, Joachim von Braun, Christine Lang, Daniel Barben, Jim Philp (2016) Policy: Five cornerstones of a global bio-economy, Nature 353 (7611), Nature Publishing Group, Jul 12, 2016. http://www.nature.com/news/policy-five-cornerstones-of-a-global-bioeconomy-1.20228.

Ellis, Erle C. (2015). "Ecology in an Anthropogenic Biosphere." Ecological Monographs 85 (3): 287–331. doi:10.1890/14-2274.1. http://onlinelibrary.wiley.com/doi/10.1890/14-2274.1/full.

Foley, Stephen F., Detlef Gronenborn, Meinrat O. Andreae, Joachim W. Kadereit, Jan Esper, Denis Scholz, Ulrich Pöschl, et al. (2013). "The Palaeoanthropocene – The Beginnings of Anthropogenic Environmental Change." Anthropocene 3 (November): 83–88. doi:10.1016/j.ancene.2013.11.002. 

http://www.sciencedirect.com/science/article/pii/S2213305413000404.

Fressoz, Jean-Baptiste (2012). L’Apocalypse Joyeuse - Une Histoire Du Risque Technologique. Le Seuil.

Fuentes, Agustin (2016). "The Extended Evolutionary Synthesis, Ethnography, and the Human Niche: Toward an Integrated Anthropology." Current Anthropology 57 (April 4): S000–S000. doi:10.1086/685684.

http://dx.doi.org/10.1086/685684.

Mensing, Scott, Irene Tunno, Gabriele Cifani, Susanna Passigli, Paula Noble, Claire Archer, Gianluca Piovesan (2016). "Human and climatically induced environmental change in the Mediterranean during the Medieval Climate Anomaly and Little Ice Age: A case from central Italy." Anthropocene (January 25). 

http://dx.doi.org/10.1016/j.ancene.2016.01.003.

Morton, Oliver (2015). The Planet Remade - How Geoengineering Could Change the World. Princton University Press.

Waters, Colin N., Jan Zalasiewicz, Colin Summerhayes, Anthony D. Barnosky, Clément Poirier, A. Gauszka, Alejandro Cearreta, et al. (2016). "The Anthropocene Is Functionally and Stratigraphically Distinct from the Holocene." Science 351 (6269) (January 8): aad2622–aad2622. doi:10.1126/science.aad2622.

http://www.sciencemag.org/cgi/doi/10.1126/science.aad2622.

Wu, Yutian, Lorenzo M. Polvani, and Richard Seager (2013). "The Importance of the Montreal Protocol in Protecting Earth’s Hydroclimate." Journal of Climate 26 (12): 4049–4068. doi:10.1175/JCLI-D-12-00675.1.

IAPG - International Association for Promoting Geoethics
http://www.geoethics.org

International Association for Promoting Geoethics Nigeria - official blog

ESC2016
Session 04 "From school and citizen seismology to geoethics"

Programme

35th General Assembly of the European Seismological Commission

Trieste (Italy), 4-10 September 2016

Convenership: 
Rémy Bossu, Paul Denton, Paul Earle, Giuseppe Di Capua

Programme:

Orals

Monday, 5 September 2016
Room: Oceania C

11:30–11:45
ESC2016-120
4 years of seismology in school activities in Romania
Dragos Tataru, Bogdan Zaharia, and Bogdan Grecu

11:45–12:00
ESC2016-131
LastQuake: an app for massive real time crowdsourcing and seismic risk reduction
Rémy Bossu, Robert Steed, Roussel Fréderic, and Mazet-Roux Gilles

12:00–12:15
ESC2016-501
Rapid estimation of earthquake intensity from Twitter's social sensors
Carlo Meletti, Stefano Cresci, and Maurizio Tesconi

12:15–12:30
ESC2016-626
The SSE-EU programme for Educational Seismology
Gerasimos Chouliaras, Bulent Cavas, Luigi Cerri, Flora Di Martino, George Drakatos, Philip Ivanov, Orlin Kouzov, Konstantinos Makropoulos, Georgios Mavromanolakis, Marios Papaevripidou, Yvoni Pavlou, Daniela Pavlova, Mariana Potsidi, Sofoklis Sotiriou, and Zacharias Zacharia


Posters

Attendance Time: Monday, 5 September 2016, 10:30–11:30
Poster area

12-1 (ESC2016-133)
With Citizen seismology, Everyone can become a seismologist!
Gilles Mazet-Roux, Rémy Bossu, and Laurent Frobert

12-2 (ESC2016-412)
Transfrontier Macroseismology in Europe
Koen Van Noten, Christophe Sira, Thomas Lecocq, Klaus-G. Hinzen, and Thierry Camelbeeck

12-3 (ESC2016-462)
Development of the Romanian Educational Seismic Network
Bogdan Zaharia, Dragos Tataru, Bogdan Grecu, and Cristian Neagoe

12-4 (ESC2016-650)
The project of Interchange work/school in Italy: the experience at INGV
Giuliana D'Addezio


The IAPG - International Association for Promoting Geoethics (http://www.geoethics.org) supports this session.

Session description:
Internet and social networks have multiplied the direct interactions between individual seismologists and citizens. Observational seismology has entered schools where they can detect signals from large global earthquakes and do real science with real data. Doing real science is one of the goals of citizen science projects alongside augmenting data collection and crowdsourcing observations on earthquake phenomena. Today there is a convergence between scientific and educational seismology projects. Many institutes and individual scientists are active on Facebook, Twitter and other social networks. Smartphone apps are replacing websites as the main source of rapid earthquake information. Communication has also expanded from rapid information to time evolving hazard, risk and even operational earthquake forecasts. These developments change the way we, as scientists interact with society. They present significant opportunities to transfer the value of scientific research to citizens, in order to avoid or minimize risky interaction as demonstrated by the l’Aquila trial.
We invite papers on schools, citizen science or public communications initiatives as well as analysis of their ethical, social and cultural implications.

ESC2016 website: 
http://meetingorganizer.copernicus.org/ESC2016/session/22631

International Association for Promoting Geoethics Nigeria - Official blog

IAPG session S32:
"Geoethics: a new way of thinking and practicing geosciences"

Programme

IAPG-Italy - Section of Geoethics and Geological Culture of the Italian Geological Society has organized the session "S36 - Geoethics: a new way of thinking and practicing geosciences" at the 88th National Congress of the Italian Geological Society, that takes place in Naples (Italy). 
The session is scheduled for 9 September 2016, from 8:30 to 11:00, Aula A32. 

Convenership:

Stefano Tinti (Università di Bologna, stefano.tinti@unibo.it), Francesco De Pascale (Università della Calabria, francesco.depascale@unical.it), Sabina Di Franco (CNR-IIA Roma, franco@iia.cnr.it), Alessandra Magagna (Università di Torino, alessandra.magagna@unito.it), Silvia Peppoloni (INGV-Roma2, silvia.peppoloni@ingv.it)


Programme:

ORALS

Friday, 9 September 2016 (08.30 - 11.00)
Aula A32
​
36-1 (08.30 - 08.45)
Dattilo V. & De Pascale F.
The semiosis of the Anthropocene: the triangle “geology/geography – planet illness – society”
​
36-2 (08.45 - 09.00)
Giardino M., Lucchesi S., Dellarole E., Bagnati T. & Magagna A.
Ethics of Geodiversity, geoEthics for Diversity: added values for Unesco Geoparks

36-3 (09.00 - 09.15)
Tinti S.
Geoethics: is it a new science or a new focus in geosciences?

36-4 (09.15 - 09.30)
Giardino M. & Lucchesi S.
A new paper on Geoethics: The “Laudato Sii” Encyclical Letter by Pope Francis on the care of our common home, Planet Earth
​
36-5 (09.30 - 09.45)
Liserre B.
The importance of environmental education in Niccolò Machiavelli’s thought in the context of the Italian Renaissance: a geoethical model

36-6 (09.45 - 10.00)
De Pascale F., Dattilo V., Muto F., Bernardo M. & D'Amico S.
Teaching resilience and educating to seismic risk reduction at school: a geoethical path in Aiello Calabro, southern Italy

36-7 (10.00 - 10.15)
Ryazi Khyabani F. & Pieruccioni D.
Will a geologist choose the environmental ethics or the economy?

36-8 (10.15 - 10.30)
Kalenge Nguvulu C. & Lupia Palmieri A.
The natural capital challenges in the Democratic Republic of Congo: a geoethical emergency

36-9 (10.30 - 10.45)
Somma R.
Forensic soil analyses in a simulated murder case
​
36-10 (10.45 - 11.00)
Tinti S. & Armigliato A.
Are there geoethical aspects involved in geohazard assessment? The case of tsunami hazard quantification and mapping
​
​
POSTERS
​
Friday, 9 September 2016
Area Poster
​
36-11 (Pannello 152)
Lozar F., Delfino M., Cirilli F., Bernardi M., Magagna A. & Giardino M.
"Urban Fossils": a project enabling reflections concerning human impact on planet Earth

36-12 (Pannello 153)
Gaudiosi G., Nappi R., Alessio G. & Porfido S.
Macroseismic intensity evaluation for the seismic hazard assessment in the third millennium

36-13 (Pannello 154)
Somma R., Silvestro M., Cascio M., Longo V., Barbagallo O. & Dawson L.
The use of digital surface, terrain models and geophysics to define search priorities for clandestine burials in a GIS-based Red-Amber-Green (RAG) system

36-14 (Pannello 155)
Seifilaleh S. & Ahadnezhad V.
Review of the performance of the crisis management centers in Iran and analysis of these institutions in Bam earthquake

International Association for Promoting Geoethics Nigeria - Official blog

Workshop:
The importance of Geoethics in achieving 
Sustainable Development Goals (SDGs) in Nigeria

Abuja (Nigeria)
24 October 2016

IAPG-Nigeria cordially invites all geoscientists and the general public to its 1st sensitisation workshop where the proposed theme will be discussed by various speakers in order to promote the activities of IAPG through cooperating with National and International organisations whose aims are complementary to those of the Association.

Sub-Themes:
1. Geoethics and Sustainable Development Goals.
2. Geoethics in our daily life.
3. Geoethics and Geoscience Profession.
4. Fostering relationship between the scientific community, mass media and general public.

Venue: 
Raw Material Research and Development Council Abuja.

Partners:
AAWG Nigeria, NMGS, RMRDC.....
If you are interested to be partner and supporter of this initiative please contact:

Arinze Harrison (IAPG-Nigeria Coordinator)
Tel.: 08037383439, 08054135793
Email: iapgnigeria@gmail.com, arinze_h24@yahoo.com
Blog: www.geoethicsnigeria.blogspot.com.ng
Twitter: www.twitter.com/iapg_nigeria 

Download the poster

Kindly share with colleagues!
Thank you.

International Association for Promoting Geoethics Nigeria - Official blog

Geoethics and Scientific Integrity
The Keys to Advancing the Geosciences and a Healthy Planet

AGU FALL MEETING 2016
San Francisco (USA)
12-16 December 2016

CALL FOR ABSTRACTS
Deadline: 3 August 2016

IAPG-USA co-organizes the session:
​
PA020: Geoethics and Scientific Integrity – The Keys to Advancing the Geosciences and a Healthy Planet

Session Description:
Geoscience directly influences the sustainability and health of the Earth; it must be conducted with the highest standards of integrity and ethics.  Geoscientist’s research elucidates many issues with significant ethical, social, and economic implications. Considering such risks as natural hazards, climate change, resource extraction, and the environmental impact of chemical and atmospheric elements; there is a clear need to develop ethical frameworks within which geoscientists can conduct their research, education, and communication.  The session’s goal is to discuss these frameworks, examining both theoretical and practical aspects of Geoethics and scientific integrity. We will explore the most recent advances in research on scientific integrity and Geoethics education, the ethics of publishing and data access, and will feature both the new report on Responsible Science from the National Academy of Sciences and new AGU/Wiley Scientific Integrity and Geoethics book.  We invite contributions on advances in scientific integrity and Geoethics, including case studies.
​
Convenership:
Linda Gundersen, Brooks Hanson, Cindy Palinkas (IAPG-USA), Vincent Cronin (IAPG-USA)

a) Information about the abstract submission
b) Submit an abstract

International Association for Promoting Geoethics Nigeria - Official blog

IAPGeoethics Newsletter n. 3 - 2016 is out!

The issue #3 - 2016 of the Newsletter of the IAPG - International Association for Promoting Geoethics has been released on 23 June 2016.

Summary:

- Congresses/Meetings (IAPG sessions at 35th IGC, AGU Fall Meeting 2016, report EGU 2016)
- New National Sections (Mexico and Paraguay)
- New publications (new article and book)
- Exhibitions (exhibition in Oklahoma City and MINERLIMA 2016)
- News from the world (Argentina and Peru)
- From the IAPG Blog (2 new recent articles)
- Focus (Sustainable Development Goals and Global Risks Report 2016)

Download the newsletter as pdf file at:
http://www.geoethics.org/newsletter.html

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