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Thursday, March 30, 2017
New Journal Article "Incremental innovations, information contagion, and path dependence: the case of drinking water purification technologies in urban India" | by N Talat & S Bhaduri, CSSP JNU
CfPs: International Conference on Engaging Canada and India: Perspectives on Sustainability | 11-12 May 2017 | IHC, New Delhi, India
Theme 1: Sustainable SocietiesTheme 2: Economic Sustainability and Business & ManagementTheme 3: Social Sustainability and LawTheme 4: Sustainable TechnologiesTheme 5: Environment, Climate Change and SustainabilityTheme 6: Public HealthTheme 7: Indigenous PracticesTheme 8: Gender
Wednesday, March 29, 2017
New Book | Reverse Glass Painting in India | by Anna L Dallapiccola, Niyogi Books
New Book | Demonetisation Decoded: A Critique of India's Currency Experiment | by Ghosh, Chandrasekhar, & Patnaik
1. Introduction2. The Purported Logic of Demonetisation3. Design and Implementation of Demonetisation4. Initial Outcomes5. Macroeconomic Consequences6. Inventing a New Utopia7. Conclusion
- Jayati Ghosh is Professor at the Centre for Economic Studies and Planning, School of Social Sciences, Jawaharlal Nehru University, New Delhi, India.
- C. P. Chandrasekhar is Dean, School of Social Sciences, and Professor at the Centre for Economic Studies and Planning, School of Social Sciences, Jawaharlal Nehru University, New Delhi, India.
- Prabhat Patnaik is Emeritus Professor at the Centre for Economic Studies and Planning, School of Social Sciences, Jawaharlal Nehru University, New Delhi, India.
CfPs: 15th Globelics Conference 2017 | 11-13 October | Athens, Greece
|
Call for Papers: 4th INDIALICS Conference 2017: Innovation for Sustainable Development: Perspectives, Policies and Practices in South Asia | 2-4 November 2017 | JNU, New Delhi, India
The 4th INDIALICS Conference 2017
Innovation for Sustainable Development: Perspectives, Policies and Practices in South Asia
Dates: 2nd to 4th November 2017
Venue: Jawaharlal Nehru University, New Delhi, India
Call for Papers & Research Proposals
In the last few decades, technological and organizational innovations have played a pivotal role in transforming the economies and societies of the South-Asian countries, setting them at the frontiers of science and technology advancement. Various policies and institutional arrangements have been restructured and created to achieve global competitiveness and faster economic growth. However, along with high economic growth, there is increasing inequality and exclusion as well as over-exploitation of natural resources. The emerging challenge, therefore, is to accomplish equilibrium between economic growth and social justice, through innovative and sustainable practices.
Drawing inspiration from the existing narratives and discourses, the 4th Indialics conference is thematised as "Innovation for Sustainable Development: Perspectives, Policies and Practices in South Asia". This conference will explore the nature, determinants and direction of innovation and new pathways for meeting future challenges in the context of sustainable development with specific reference to South Asia. We posit that the challenges cannot be seen as isolated from each other but interconnected and require social, institutional and policy innovations, political processes and the interconnections between these. The conference will reflect on challenges and opportunities in fostering innovation for socio-economic development and sustainability.
Key Conference Themes will include:
- Innovation for Sustainable Agriculture/ (including Food Security, Farmers' Innovation)
- Global Value Chains and Innovation Systems
- Sanitation and Waste Management
- Climate Change Adaption, Mitigation, and Resilience
- Gender, Technology and Innovation
- Innovation in the Informal Economy
- Indicators for Science, Technology and Innovation (STI)
- R&D and Technology Transfer; University-Industry Linkages
- Innovations in Healthcare and Pharmaceuticals
- IPR, Standards & Regulations in Science, Technology and Innovation (STI)
- Foresights and Futures for Technology
- Responsible Innovation
Important Dates:
· Deadline for Extended Abstract: 20th April 2017
· Notification of Acceptance of Extended Abstracts: 20th June 2017
· Last Date for Submission of Full Papers: 20th September 2017 (for Selected Abstracts).
Format for Extended Abstract/Research Proposal (around 1200 words): Paper proposal should preferably include following subsections (a) Purpose (b) Design/Methodology/Approach (c) Findings (d) Implications (e) Originality/Value (f) Keywords (maximum 5). The extended abstract should not have been published earlier in any form. Authors of the accepted abstract will be invited to present their work at the conference. Papers by young scholars are particularly encouraged. The author(s) are expected to follow above format for submission. All submissions should be submitted online.
Form for Submission of Extended Abstract: http://bit.ly/2lmF9tO
Organizer:
This conference is being organized by the Centre for Studies in Science Policy (CSSP), Jawaharlal Nehru University (JNU), New Delhi.
Convener of the Conference: Saradindu Bhaduri, Chairperson, CSSP.
Coordinators: Sujit Bhattacharya (CSIR-NISTADS) and Dinesh Abrol (ISID)
All communications regarding the INDIALICS2017 should be addressed to:
Email: indialics2017@gmail.com.
Dr Anup Kumar Das, CSSP, Room #228, SSS-I, JNU, New Delhi 110067. Tel. +91-11-26738906.
Hashtag for Social Media: #INDIALICS2017
Wednesday, March 22, 2017
Letter .. Mrs. Sophie
"I would be interested to Receive Further details from you, we would
appreciate a prompt reply." Thank you. Please reply me
rizavasmrssophie@hotmail.com
Letter .. Mrs. Sophie
"I would be interested to Receive Further details from you, we would
appreciate a prompt reply." Thank you. Please reply me
rizavasmrssophie@hotmail.com
Is wastewater the new black gold?
UNESCO and UN-Water Press release N°2017-25
Is wastewater the new black gold?
Launch of the United Nations World Water Development Report on 22 March
Durban, South Africa, 22 March – What if we were to consider the vast quantities of domestic, agricultural and industrial wastewater discharged into the environment everyday as a valuable resource rather than costly problem? This is the paradigm shift advocated in the United Nations World Water Development Report, Wastewater: the Untapped Resource, launched today in Durban on the occasion of World Water Day..
The United Nations World Water Development Report is a UN-Water Report coordinated by the UN World Water Assessment Programme of UNESCO. It argues that once treated, wastewater could prove invaluable in meeting the growing demand for freshwater and other raw materials.
"Wastewater is a valuable resource in a world where water is finite and demand is growing," says Guy Ryder, Chair of UN-Water and Director-General of the International Labour Organization. "Everyone can do their bit to achieve the Sustainable Development Goal target to halve the proportion of untreated wastewater and increase safe water reuse by 2030. It's all about carefully managing and recycling the water that runs through our homes, factories, farms and cities. Let's all reduce and safely reuse more wastewater so that this precious resource serves the needs of increasing populations and a fragile ecosystem."
"The 2017 World Water Development Report shows that improved wastewater management is as much about reducing pollution at the source, as removing contaminants from wastewater flows, reusing reclaimed water and recovering useful by-products. […] Raising social acceptance of the use of wastewater is essential to moving forward", argues UNESCO Director-General Irina Bokova in her foreword to the Report.
A health and environmental concern
A large proportion of wastewater is still released into the environment without being either collected or treated. This is particularly true in low-income countries, which on average only treat 8 % of domestic and industrial wastewater, compared to 70% in high-income countries. As a result, in many regions of the world, water contaminated by bacteria, nitrates, phosphates and solvents is discharged into rivers and lakes ending up in the oceans, with negative consequences for the environment and public health.
The volume of wastewater to be treated will rise considerably in the near future especially in cities in developing countries with rapidly growing populations. "Wastewater generation is one of the biggest challenges associated with the growth of informal settlements (slums) in the developing world," say the report's authors. A city like Lagos (Nigeria) generates 1.5 million m3 of wastewater every day, most of which ends up untreated in the Lagos Lagoon. Unless action is taken now, this situation is likely to deteriorate further as the city's population rises to over 23 million by 2020.
Pollution from pathogens from human and animal excreta affects almost one third of rivers in Latin America, Asia and Africa, endangering the lives of millions of people. In 2012, 842,000 deaths in low- and middle-income countries were linked to contaminated water and inadequate sanitation services. The lack of treatment also contributes to the spread of some tropical diseases such as dengue and cholera.
Solvents and hydrocarbons produced by industrial and mining activities, as well as the discharge of nutrients (nitrogen, phosphorus and potassium) from intensive farming accelerate the eutrophication of freshwater and coastal marine ecosystems. An estimated 245,000 km2 of marine ecosystems—roughly the size of the United Kingdom—are currently affected by this phenomenon. The discharge of untreated wastewater also stimulates the proliferation of toxic algae blooms and contributes to the decline in biodiversity.
Growing awareness of the presence of pollutants such as hormones, antibiotics, steroids and endocrine disruptors in wastewater poses a new set of challenges as their impact on the environment and health have yet to be fully understood.
Pollution reduces the availability of freshwater supplies, which are already under stress not least because of climate change. Nevertheless, most governments and decision-makers have been primarily concerned by the challenges of water supply, notably when it is scarce, while overlooking the need to manage water after it has been used. Yet these two issues are intrinsically related. The collection, treatment and safe use of wastewater are at the very foundation of a circular economy, balancing economic development with the sustainable use of resources. Reclaimed water is a largely underexploited resource, which can be reused many times.
From sewer to tap
Wastewater is most commonly used for agricultural irrigation and at least 50 countries worldwide are known to use wastewater for this purpose, accounting for an estimated 10 % of all irrigated land. However, data remains incomplete for many regions, notably Africa.
But this practice raises health concerns when the water contains pathogens that can contaminate crops. The challenge, then, is to move from informal irrigation towards planned and safe use, as Jordan, where 90% of treated wastewater is used for irrigation, has been doing since 1977. In Israel, treated wastewater already accounts for nearly half of all water used for irrigation.
In industry, large quantities of water can be reused, for example for heating and cooling, instead of being discharged into the environment. By 2020, the market for industrial wastewater treatment is expected to increase by 50 %.
Treated wastewater can also serve to augment drinking water supplies, although this is still a marginal practice. Windhoek, the capital of Namibia, has been doing this since 1969. To counter recurrent freshwater shortages, the city has installed infrastructure to treat up to 35% of wastewater, which is then used to supplement drinking water reserves. Residents of Singapore and San Diego (USA) also safely drink water that has been recycled.
This practice can meet with resistance from the public, who may be uncomfortable with the idea of drinking or using water they consider to have once been dirty. Lack of public support led to the failure of a project to reuse water for irrigation and fish farming in Egypt in the 1990s. Awareness-raising campaigns can help gain public acceptance for this type of practice by referring to successful examples, such as that of the astronauts on the International Space Station who have been reusing the same recycled water for over 16 years.
Wastewater and sludge as a source of raw materials
As well as providing a safe alternative source for freshwater, wastewater can also be seen as a potential source of raw materials. Thanks to developments in treatment techniques, certain nutrients, like phosphorus and nitrates, can now be recovered from sewage and sludge and turned into fertilizer. An estimated 22% of global demand for phosphorus, a finite and depleting mineral resource, could be met by treating human urine and excrement. Some countries, like Switzerland, have already passed legislation calling for the mandatory recovery of certain nutrients such as phosphorus.
The organic substances contained in wastewater could be used to produce biogas, which could help power wastewater treatment facilities, helping them transition from major consumers to becoming energy neutral or even net energy producers. In Japan, the government has set itself the target of recovering 30% of the biomass energy in wastewater by 2020. Every year, the city of Osaka produces 6,500 tonnes of biosolid fuels from 43,000 tonnes of sewage sludge.
Such technologies need not be out of reach for developing countries as low-cost treatment solutions already allow for the extraction of energy and nutrients. They may not yet allow for the direct recovery of potable water, but they can produce viable and safe water for other uses, such as irrigation. And sales of raw materials derived from wastewater can provide additional revenue to help cover the investment and operational costs of wastewater treatment.
Today, 2.4 billion people still do not have access to improved sanitation facilities. Reducing this figure, in keeping with Sustainable Development Goal 6 on water and sanitation of the UN 2030 Agenda, will mean discharging even more wastewater, which will then need to be treated affordably.
Some progress has already been made. In Latin America, for example, the treatment of wastewater has almost doubled since the late 1990s and covers between 20% and 30% of wastewater collected in urban sewer networks. But that also means that between 70% and 80% is released without treatment, so there is still a long way to go. An essential step on that road will have been taken with the widespread recognition of the value of safely using treated wastewater and its valuable by-products as an alternative to raw freshwater.
***
Note to the editors
The United Nations World Water Development Report is a UN-Water Report produced by the UN World Water Assessment Programme of UNESCO. The Report is the result of the collaboration between the 31 entities of the United Nations System and the 38 international partners that comprise UN-Water. The Report presents an exhaustive review of the state of global water resources and, up until 2012, was published every three years. Since 2014, the WWDR is published annually, with each edition focused on a given theme. It is launched every year on World Water Day, 22 March, which shares the same theme as the report.
Download the WWDR Report
Facts and Figures
Read the Executive Summary
Watch the video
Media contact: Agnès Bardon, UNESCO Media Service. Tel: +33 (0)14568 1764, a.bardon@unesco.org
UNESCO, 7, place de Fontenoy, PARIS, NA FRANCE France
Monday, March 20, 2017
Call for Expression of Interest
Sir/Madam,
UNESCO is looking for a higher educational institution delivering the Open and Distance Learning (ODL) in order to pilot and localize its document “Learning for All: Guidelines on the Inclusion of Learner with Disabilities in Open and Distance Learning”. The guidelines should be piloted in the higher educational institution delivering ODL or which provides open and distance learning programmes, as well as considers making changes at institutional level.
The detailed Plan of Action should include: (i) assessment and analysis of current situation using the matrix of actions and technical annexes; (ii) identification of key challenges and opportunities, as well as (iii) concrete actions and recommendations for different educational stakeholders in order to make ODL inclusive for all learners.
The final delivery date is 15 November 2017.
Call for Expression of Interest is available at: https://en.unesco.org/sites/default/files/expression_interest_odl.pdf
[apeid.higher_education.bgk] Call for Expression of Interest
Sir/Madam,
UNESCO is looking for a higher educational institution delivering the Open and Distance Learning (ODL) in order to pilot and localize its document "Learning for All: Guidelines on the Inclusion of Learner with Disabilities in Open and Distance Learning". The guidelines should be piloted in the higher educational institution delivering ODL or which provides open and distance learning programmes, as well as considers making changes at institutional level.
The detailed Plan of Action should include: (i) assessment and analysis of current situation using the matrix of actions and technical annexes; (ii) identification of key challenges and opportunities, as well as (iii) concrete actions and recommendations for different educational stakeholders in order to make ODL inclusive for all learners.
The final delivery date is 15 November 2017.
Call for Expression of Interest is available : https://en.unesco.org/sites/default/files/expression_interest_odl.pdf
Friday, March 17, 2017
Is wastewater the new black gold?
EMBARGO UNTIL 22 MARCH, 00h00 GMT
UNESCO and UN-Water Press release N°2017-25
Is wastewater the new black gold?
Launch of the United Nations World Water Development Report on 22 March
Durban, South Africa, 22 March – What if we were to consider the vast quantities of domestic, agricultural and industrial wastewater discharged into the environment everyday as a valuable resource rather than costly problem? This is the paradigm shift advocated in the United Nations World Water Development Report, Wastewater: the Untapped Resource, launched today in Durban on the occasion of World Water Day..
The United Nations World Water Development Report is a UN-Water Report coordinated by the UN World Water Assessment Programme of UNESCO. It argues that once treated, wastewater could prove invaluable in meeting the growing demand for freshwater and other raw materials.
"Wastewater is a valuable resource in a world where water is finite and demand is growing," says Guy Ryder, Chair of UN-Water and Director-General of the International Labour Organization. "Everyone can do their bit to achieve the Sustainable Development Goal target to halve the proportion of untreated wastewater and increase safe water reuse by 2030. It's all about carefully managing and recycling the water that runs through our homes, factories, farms and cities. Let's all reduce and safely reuse more wastewater so that this precious resource serves the needs of increasing populations and a fragile ecosystem."
"The 2017 World Water Development Report shows that improved wastewater management is as much about reducing pollution at the source, as removing contaminants from wastewater flows, reusing reclaimed water and recovering useful by-products. […] Raising social acceptance of the use of wastewater is essential to moving forward", argues UNESCO Director-General Irina Bokova in her foreword to the Report.
A health and environmental concern
A large proportion of wastewater is still released into the environment without being either collected or treated. This is particularly true in low-income countries, which on average only treat 8 % of domestic and industrial wastewater, compared to 70% in high-income countries. As a result, in many regions of the world, water contaminated by bacteria, nitrates, phosphates and solvents is discharged into rivers and lakes ending up in the oceans, with negative consequences for the environment and public health.
The volume of wastewater to be treated will rise considerably in the near future especially in cities in developing countries with rapidly growing populations. "Wastewater generation is one of the biggest challenges associated with the growth of informal settlements (slums) in the developing world," say the report's authors. A city like Lagos (Nigeria) generates 1.5 million m3 of wastewater every day, most of which ends up untreated in the Lagos Lagoon. Unless action is taken now, this situation is likely to deteriorate further as the city's population rises to over 23 million by 2020.
Pollution from pathogens from human and animal excreta affects almost one third of rivers in Latin America, Asia and Africa, endangering the lives of millions of people. In 2012, 842,000 deaths in low- and middle-income countries were linked to contaminated water and inadequate sanitation services. The lack of treatment also contributes to the spread of some tropical diseases such as dengue and cholera.
Solvents and hydrocarbons produced by industrial and mining activities, as well as the discharge of nutrients (nitrogen, phosphorus and potassium) from intensive farming accelerate the eutrophication of freshwater and coastal marine ecosystems. An estimated 245,000 km2 of marine ecosystems—roughly the size of the United Kingdom—are currently affected by this phenomenon. The discharge of untreated wastewater also stimulates the proliferation of toxic algae blooms and contributes to the decline in biodiversity.
Growing awareness of the presence of pollutants such as hormones, antibiotics, steroids and endocrine disruptors in wastewater poses a new set of challenges as their impact on the environment and health have yet to be fully understood.
Pollution reduces the availability of freshwater supplies, which are already under stress not least because of climate change. Nevertheless, most governments and decision-makers have been primarily concerned by the challenges of water supply, notably when it is scarce, while overlooking the need to manage water after it has been used. Yet these two issues are intrinsically related. The collection, treatment and safe use of wastewater are at the very foundation of a circular economy, balancing economic development with the sustainable use of resources. Reclaimed water is a largely underexploited resource, which can be reused many times.
From sewer to tap
Wastewater is most commonly used for agricultural irrigation and at least 50 countries worldwide are known to use wastewater for this purpose, accounting for an estimated 10 % of all irrigated land. However, data remains incomplete for many regions, notably Africa.
But this practice raises health concerns when the water contains pathogens that can contaminate crops. The challenge, then, is to move from informal irrigation towards planned and safe use, as Jordan, where 90% of treated wastewater is used for irrigation, has been doing since 1977. In Israel, treated wastewater already accounts for nearly half of all water used for irrigation.
In industry, large quantities of water can be reused, for example for heating and cooling, instead of being discharged into the environment. By 2020, the market for industrial wastewater treatment is expected to increase by 50 %.
Treated wastewater can also serve to augment drinking water supplies, although this is still a marginal practice. Windhoek, the capital of Namibia, has been doing this since 1969. To counter recurrent freshwater shortages, the city has installed infrastructure to treat up to 35% of wastewater, which is then used to supplement drinking water reserves. Residents of Singapore and San Diego (USA) also safely drink water that has been recycled.
This practice can meet with resistance from the public, who may be uncomfortable with the idea of drinking or using water they consider to have once been dirty. Lack of public support led to the failure of a project to reuse water for irrigation and fish farming in Egypt in the 1990s. Awareness-raising campaigns can help gain public acceptance for this type of practice by referring to successful examples, such as that of the astronauts on the International Space Station who have been reusing the same recycled water for over 16 years.
Wastewater and sludge as a source of raw materials
As well as providing a safe alternative source for freshwater, wastewater can also be seen as a potential source of raw materials. Thanks to developments in treatment techniques, certain nutrients, like phosphorus and nitrates, can now be recovered from sewage and sludge and turned into fertilizer. An estimated 22% of global demand for phosphorus, a finite and depleting mineral resource, could be met by treating human urine and excrement. Some countries, like Switzerland, have already passed legislation calling for the mandatory recovery of certain nutrients such as phosphorus.
The organic substances contained in wastewater could be used to produce biogas, which could help power wastewater treatment facilities, helping them transition from major consumers to becoming energy neutral or even net energy producers. In Japan, the government has set itself the target of recovering 30% of the biomass energy in wastewater by 2020. Every year, the city of Osaka produces 6,500 tonnes of biosolid fuels from 43,000 tonnes of sewage sludge.
Such technologies need not be out of reach for developing countries as low-cost treatment solutions already allow for the extraction of energy and nutrients. They may not yet allow for the direct recovery of potable water, but they can produce viable and safe water for other uses, such as irrigation. And sales of raw materials derived from wastewater can provide additional revenue to help cover the investment and operational costs of wastewater treatment.
Today, 2.4 billion people still do not have access to improved sanitation facilities. Reducing this figure, in keeping with Sustainable Development Goal 6 on water and sanitation of the UN 2030 Agenda, will mean discharging even more wastewater, which will then need to be treated affordably.
Some progress has already been made. In Latin America, for example, the treatment of wastewater has almost doubled since the late 1990s and covers between 20% and 30% of wastewater collected in urban sewer networks. But that also means that between 70% and 80% is released without treatment, so there is still a long way to go. An essential step on that road will have been taken with the widespread recognition of the value of safely using treated wastewater and its valuable by-products as an alternative to raw freshwater.
***
Note to the editors
The United Nations World Water Development Report is a UN-Water Report produced by the UN World Water Assessment Programme of UNESCO. The Report is the result of the collaboration between the 31 entities of the United Nations System and the 38 international partners that comprise UN-Water. The Report presents an exhaustive review of the state of global water resources and, up until 2012, was published every three years. Since 2014, the WWDR is published annually, with each edition focused on a given theme. It is launched every year on World Water Day, 22 March, which shares the same theme as the report.
To download the WWDR Report:
http://www.unesco.org/new/wwdr-media
user: media-wwdr2017
password: DurbanSDG_6
Media contact: Agnès Bardon, UNESCO Media Service. Tel: +33 (0)14568 1764, a.bardon@unesco.org
UNESCO, 7, place de Fontenoy, PARIS, NA FRANCE France
Tuesday, March 14, 2017
CSSP Open Workshop - Indo-French Perspectives on Digital Studies | 15th March, at JNU Convention Centre
Open Workshop
Indo-French Perspectives on Digital Studies
An IFRIS – JNU Initiative
Organised by the Digital Studies Group, New Delhi
Wednesday, 15th March, 2017
Committee Room No. 108, Convention Centre
Jawaharlal Nehru University
New Delhi-110067
Introductory Session 9:00am – 9:30am
Introductory Remarks: Saradindu Bhaduri, Chairperson, CSSP, JNU.
Introduction to Indo-French Partnership: Madhav Govind, CSSP, JNU.
Marine Al Dahdah, Paris Descartes University, CEPED, Paris - CSH-Delhi.
Session 1: Open Access 9:30am – 11:00am
Chairperson/Discussant: Rajiv Mishra, CSSP (JNU)
Speaker 1: Marianne Noël, CNRS-LISIS, Paris
Speaker 2: Anubha Sinha, Centre for Internet & Society, New Delhi
Tea Break 11:00 am- 11:30 am
Session 2: Materiality of the Digital: People, Spaces, Infrastructures 11.30 am – 1:00pm
Chairperson/Discussant: Vidya Subramanian, HT, New Delhi.
Speaker 1: Ravi Sundaram, CSDS-Sarai, Delhi.
Speaker 2: Rajarshi Dasgupta, Centre for Political Studies, SSS, JNU
Speaker 3: Aurélie Varrel, French Institute of Pondicherry, CNRS-CEIAS.
Lunch Break 1:00 am to 2:00 pm
Session 3: Digital Governance and Databases 2:00pm-3.30 pm
Chairperson/Discussant: Khetrimayum Monish, CIS Delhi,.
Speaker 1: Eric Dagiral, Paris Descartes University , CERLIS, Paris.
Speaker 2: Ravi Shukla Head, India-SDC, Netvision Corporation Singapore
and Independent Researcher on IT and society.
Tea Break 3.30 pm to 4:00 pm
Concluding Session: Synthesis 4:00 pm to 5:00 pm
Speaker: Mathieu Quet, CSSP (JNU), IRD-Paris
Friday, March 10, 2017
Governance of maritime space, conference organized by UNESCO and the European Commission
UNESCO Media Advisiory No.2017-06
Governance of maritime space, conference organized by UNESCO and the European Commission
Paris, 10 March- UNESCO and the European Commission are hosting an international conference on marine spatial planning, a process that seeks to regulate human activities in the waters bordering coastal areas so as to preserve marine ecosystems, avoid conflicts between sectors of commercial and industrial activity, and promote international cooperation. (UNESCO Headquarters, 15 to 17 March).
Organized by the Intergovernmental Oceanographic Commission of UNESCO (IOC) and the Directorate-General for Maritime Affairs and Fisheries of the European Commission, the conference will bring together more than 350 experts from all over the world. It will provide an opportunity to take stock of existing marine spatial planning (MSP) to date, exchange best practices, encourage cooperation among countries sharing coastal and marine waters, and establish priorities for the coming years.
On the sidelines of the conference, participants will be invited to take part in a role- game, the MSP Challenge. It is designed to improve the players' understanding of the marine spatial planning process by getting them to take on the parts of environmental activist, industrialist and decision-maker.
Marine spatial planning has become increasingly important due to the intensification of activities beside traditional fishing and shipping. Recent decades have seen the development of marine aggregates extraction, offshore aquaculture, renewable marine energy generation and more. MSP aims to bring together all users to help them coordinate decision-making, avoid inter sectoral conflicts and resource overexploitation.
Marine spatial plans today cover almost 10% of the world's exclusive economic zones (marine areas stretching over 200 nautical miles from the coastline on which States exercise sovereign rights, notably with regard to the exploitation of resources)
Since 2006, IOC has been assisting countries in implementing this type of ecosystem-based management through its Marine Spatial Planning initiative. In 2009, IOC published Marine spatial planning: a step-by-step approach to ecosystem-based management a guide to support countries implementing management plans for their marine regions [available in English, Spanish and Vietnamese].
In 2014, the European Union adopted legislation to create a common framework for maritime spatial planning in Europe. Since then, the European Commission has funded cross-border planning projects worth €18 million.
The conference is expected to pave the way for the adoption of a road map by the Intergovernmental Oceanographic Commission of UNESCO and the Directorate-General for Maritime Affairs and Fisheries of the European Commission to encourage marine spatial planning in all seas and oceans of the globe. The objective is to triple the surface of marine areas benefiting from spatial planning by 2025 to cover one third of total waters under national jurisdictions.
****
More information about the conference
More information on the European directive on MSP
More information on the MSP Challenge
(An event open to journalists accredited by UNESCO and invited experts only)
Media contact: Agnès Bardon, UNESCO Press Service. Tel: +33 (0) 1 45 68 17 64, a.bardon@unesco.org
UNESCO, 7, place de Fontenoy, PARIS, NA FRANCE France