Department of Land and Water Resources Engineering; School of Architecture and the Built Environment, Royal Institute of Technology (KTH), Stockholm
Postal address: Institutionen för mark och vattenteknik, KTH, SE-100 44 Stockholm, Sweden
Visiting address: Teknikringen 76
Web page: http://www.lwr.kth.se/english/Index.htm
• Professor Prosun Bhattacharya, phone: + 46 (0)8 790 73 99.
Personal web page: http://www.lwr.kth.se/
• Professor Emeritus Gunnar Jacks, phone: +46 (0)8 790 7380
Research fields connected to South Asia:
‡ Arsenic in groundwater in Bangladesh and India
‡ Fluoride in groundwater in India
‡ Local water supply and sanitation in suburban Dhaka, Bangladesh
‡ Heavy metal pollution in groundwater in Punjab
‡ Groundwater Quality in Southern India
Partner university research departments in South Asia
• Dept. of Geology, University of Dhaka – prof Kazi Matin Ahmed
• Dept. of Chemistry, Kalyani University, West Bengal, India – prof. Debashis Chatterjee
• The Central Ground Water Board of India
• Arsenic Research Group, NGO, Dhaka – Dr Arif Mohiuddin Sikhder
• Dept. of Geology, Panjab University, Chandigarh, India – prof K P Singh
• Water Technology Centre, Tamil Nadu Agricultural University – prof K Palanisami
Linnaeus Palme Exchange Programme
Researchers and students at the department. From left to right: PhD Candidate Mohammed Hossain, University of Dhaka; Prof. Prosun Bhattacharya; and the Linnaeus Palme exchange programme scholarship students Sarmin Sultana and Mokleksur Rahman, both from the University of Dhaka, Bangladesh.
For several years, the department was involved in a teachers and students exchange with the Department of Geology at Dhaka University, Bangladesh through the Linnaeus Palme Exchange Programme. Prosun Bhattacharya was the key person on the Swedish side, and Prof. Kazi Matin Ahmed on the Bangladeshi side. A Linnaeus Palme Exchange Programme grant was first given in 2004-05.
From 2008, the department is involved in another Linnaus Palme exchange programme with the National Law School of India University (NLSIU) in Bangalore, India.
The project received continued funding for the period 2012-14 with SEK 667 104.
Besides, a new Linnaeus Palme Exchange Programme was launched in 2012 with Jawaharlal Nehru University (JNU) in Delhi, India. The project was awarded funding with SEK 104 512. In March 2013, it received renewed funding for the period 2013-14 with SEK 56 332. More information about the South Asia related Linnaeus Palme projects for 2013-14.
Research connected to South Asia:
Professor Emeritus Gunnar Jacks has been engaged in research on water issues in South India since the late 1960’s, when he first visited Coimbatore in Tamil Nadu and established a long-standing relation with Tamil Nadu Agricultural University. Over the decades a large number of students from the Dept. of Land and Water Resources Engineering at KTH have gone to Coimbatore to do field work for theses.
Prof. Jacks is still involved with a major water resources management project in South India, in collaboration with the Department of Water and Environmental Studies, Linköping University, and SACIWaters, Hyderabad, India. More information on this project.
Gunnar Jacks graduated as a mining engineer from KTH in 1963. After working with rock stability issues for a couple of years he and his wife Birgitta spent a year with a humanitarian Non-Governmental Organization (NGO) in Turkey where he realized the importance of water for societies and human life. He took a B. Sc. degree in Medicine from the Karolinska Institutet, Stockholm in 1971. After returning to Sweden and KTH, he studied hydrology and received the PhD in hydrochemistry in 1973.
A turning point was when he assisted his professor in a short term groundwater investigation in Tamil Nadu, India. That led to a three year project work within Central Ground Water Board in Coimbatore in India and later on to an engagement in a project in Kerala, India. The
In 1985, he got a professorship in Groundwater Chemistry. He took a very active part in teaching and research on acidification of soil and groundwater during the 1980s and 1990s. The quantitative study of weathering rates became an important issue and he was part of a group that used strontium isotopes for assessments. During this period he was also doing research on artificial recharge of groundwater as well as wetland hydrology and hydrochemistry. He has been involved with a number of international research projects since 1990s which include investigation on high fluoride groundwater in Rajasthan, India (1994–1997), and local water supply and sanitation in suburban Dhaka, Bangladesh (1999–2003).
He has supervised a significant number of PhD students during his professional career at the KTH and serve as a peer-reviewer in a number of scientific committees and peer-reviewed journals. Professor Jacks been actively involved in research on arsenic in soil and groundwater systems since 1991. During 1996, his research group at KTH was contacted by Dr. Debashis Chatterjee from the Kalyani University situated near Kolkata, India regarding the arsenic problems in West Bengal. That was the start of a still ongoing work in India, Bangladesh and several other parts of the world with a principal focus on research on the mechanisms of arsenic mobilization in groundwater environments, a work now headed by Prof. Dr. Prosun Bhattacharya (more information below).
Gunnar Jacks is a guest professor at Åbo Akademi University, the Swedish speaking university in Finland. In 2006, he was elected as the President of the International Society of Groundwater for Sustainable Development (ISGSD). Gunnar Jacks was also instrumental in setting up of SASNET, and was a member of the SASNET board till 2003.
He presented his research on ”Water supply – from the source to the mouth” at the Swedish Development Studies research conference, named ”Fattiga och rika. Aktuell utvecklingsforskning och dess villkor i Sverige”, organised by Sida/SAREC and Lund University on 9–11 January 2003. Read the abstract. Jacks also organised a panel at the 18th European Conference on Modern South Asian Studies organised by SASNET and Lund University in July 2004. The panel was named ”
In November 2005 Prof. Jacks received a one-year research grant from Sida/SAREC for a project titeld ”
Project abstract: Kerala Coastal aquifers on the SW part of the Indian peninsula range from Tertiary to Holocene in age. The Tertiary aquifers are found in the coastal sediments formed when the Indian peninsula was largely drained westwards. The deeper aquifers have a sequence from the south of calcium -bicarbonate water via sodium-bicarbonate water to a brackish water in the north. The fresh aquifers are subject to overdraft with risk of salt water intrusion. However, the presence of sodium-bicarbonate water indicates flushing out of a former saline/brackish water. The hypothesis is that thios reflects flushing during glacial times when the sea water level was 125 m below the present one. The project aims at dating the groundwater. If the hypothesis is verified the risk for sea water intrusion is less alarming as the salt water/fresh water interface might be off-shore.
In August 2006, Prof. Jacks was given SEK 20 000 as a SASNET grant to cover a guest lecture programme to bring Dr. Alagappan Ramanathan, Dept. of Environmental Sciences, Jawaharlal Nehru University (JNU), New Delhi, India, to Sweden (more information about the SASNET grants 2006).
In November 2007, Prof. Jacks was given SEK 600 000 as a three-years grant (2008-10) from Sida's Developing Country Research Council (U-landsforskningsrådet), for a project titled ”
Prof. Jacks is also involve din a research project on ”
Abstract: Rice is the staple food for a large fraction of the global population. Wetland rice requires about 1 200-1 400 mm of water per crop. However, in the early 1990s Father Henri de Laulanie, engaged in rice cultivation on Madagascar, published his experiences from a drought period when the lowland rice could not be kept flooded (Laulanie, 1993). He found that the yield increased although the applied irrigation water was only about half the conventional amount. This interesting finding has initiated experiments especially in Asia, in China and India notably. There has been harsh criticism against the practice using words such as
nonsense and no science. The growing experience in the practise both supports the claim that yields are higher and denies it. Several advantages are registered like a better nitrogen economy as denitrification decreases. Further, emissions of greenhouse gases like dinitrogen oxide and methane decrease. What has further been debated is the labour requirement. SRI uses a different planting pattern and requires more frequent mechanical weeding. Adopting the practise requires considerable extension
work and regard to seasonal financial constraints for poor farmers. The advantages documented regarding water efficiency, nitrogen economy, environmental impact and returns for the farmers indicate that SRI is a promising practise especially where water is a constraint. It seems that a successful adoption requires a considerable extension work.
A separate KTH-International Groundwater Arsenic Research Group, GARG (Forskargruppen för miljögeokemi) within the department is studying contaminated groundwaters and soils. GARG is presently engaged in research projects concerning the arsenic problem in the Bengal Delta Plain. Some of these studies deal with arsenic in groundwater, which is a very serious problem to inhabitants of the Indian state of West Bengal, and Bangladesh. In these areas some 33 million inhabitants are using arsenic-contaminated water daily; about 200,000 of them are displaying symptoms of arsenic poisoning.
The main research issues are to find out how the arsenic in the sediments is dissolved and gets into the groundwater, and the methods for the removal of arsenic. Before remediation methods are put into practice, investigation of their long-term implications are made, as well as which chemical constituents in the groundwater may affect the different methods of arsenic removal.
One of the major targets is to develop low-cost and sustainable methods for the removal of arsenic from contaminated water. They should be viable on a small scale, to be used in villages or small communities. Further, GARG studies the groundwater composition from different aquifers of Bangladesh, which will serve as a basis for finding arsenic-safe groundwater sources for sustainable drinking water supply. More information on GARG.
The arsenic research carried out has been funded by Sida/SAREC, and the United Nations Children’s Emergency Fund (UNICEF) during the period 1999–2006, and the Swedish Strategic Environmental Research Foundation (Mistra) for the period 2006–2009.
Arsenic in groundwater of Bangladesh and India has been focus for research at the department for several years. They have tried to find out why groundwater in certain parts of Bangladesh and adjacent areas are contaminated while others are not. The sediments, i e the soil layers, are also being examined. Obviously, the geological features as well as the changes of the chemical environment determine the contents of arsenic; it has already been found that younger, more shallow layers contain more arsenic than older, deeper ones do. This explains why groundwater from more shallow wells do contain more arsenic than deeper ones. Consequently, one solution would be to drill deeper wells.
Other projects have focused on mapping the acquifers (groundwater-carrying sediment layers) with an aim at making it easier to find where existing wells can be drilled deeper in order to reach aquifers where the arsenic content is lower.
Arsenic-contaminated water in different parts of the world. The research in Bangladesh and West Bengal will also result in knowledge that may be used in other areas with arsenic-contaminated waters as well. Two of these are the Huhhot Alluvial Basin of inner Mongolia and the Chaco-Pampas Plains of the Argentine. Alarming reports about arsenic-contaminated waters are also coming from China, Thailand, Vietnam and Taiwan; evidently, the development of sustainable methods to purify contaminated groundwaters is urgent.
GARG projects 1997–2007:
• The project
• In August 2005 Dr. Bhattacharya received a SASNET Planning grant for a research project titled ”
Projects from 2006
In April 2006, Dr. Bhattacharya and his colleague Associate Professor Roger Thunvik, received SEK 3.65 million as a grant from the Swedish Foundation for Strategic Environmental Research (Mistra) for innovative environmental research (”idestöd”), for a project titled ”
Later the same year, in October 2006, Dr. Bhattacharya received another SEK 600 000 as a three-years grant (2007-09) from the Swedish Research Links programme (funded by Sida and the Swedish Research Council) for a similar project titled ”
The scientists involved in this project included (besides Prof. Prosun Bhattacharya himself, and Roger Thunvik from the KTH-Groundwater Arsenic Research Group), Dr. K.R. Gunaratna, Dept. of Environmental Microbiology, KTH; Prof. Al. Ramanathan from the School of Environmental Sciences, Jawaharlal Nehru University (JNU), New Delhi, India; Prof. Chandan Mahanta, Indian Institute of Technology (IIT), Guwahati, India; and Dr. D. Chandrashekharam, Department of Earth Sciences, Indian Institute of Technology (IIT) Bombay, India.
In June 2007, Prof. Prosun Bhattacharya received SEK 909.900 for a three-years project (2008-10) titled ”
Project Summary: Groundwater is the main source of potable water for the population in South Asia. In India, the presence of arsenic (As) above the limits of safe drinking water (10 μg/L) detected in groundwater widely over the Indian subcontinent has posed to be a potential source of environmental health disaster. The presence of As in the groundwater of the hard rocks aquifers in the district of Rajnandgaon in Chhattisgarh state has exposed an estimated population of 1-2 million to a potential risk of arsenic exposure. Arsenic contamination in tube-well water in Ambagarh-Chowki block in Chhattisgarh state of central India, is restricted to local areas confined within the N-S trending Dongargarh rift zone. Affected areas are preferentially located in acid volcanics, close to shear zones. As preferentially occurs in iron-enriched soil and similarly altered biotite, chlorite in granite. Pyrite in volcanic and shear zone rocks, although locally As-bearing also acts as a source of As in groundwater.
The overall objective of the present project is to consolidate the information and database on the groundwater resources for exploitation of safe-drinking water in As affected hotspots in selected areas of Rajnandgaon district in Central India. The specific goal of this project is to develop the options for targeting As-safe aquifers for drinking purposes that involves detailed evaluation of the local geological and hydrogeological setting in order to: i) identify geological and Hydrogeological baseline study in the region, and ii) to provide and develop common scientific database on baseline hydrogeochemistry of the aquifers for the identification of As-safe and targeting the As-safe aquifers for drinking water supply. Within the framework of this project, we also aim to use the hydrogeological and geochemical constraints in the hot-spot areas as a basis for the evaluation of the risks associated with these aquifers, and thereby their sustainability as safe drinking water source. The co-operation involves exchange of scientific personnel, fieldtrips, seminars, jointly supervised Ph.D. and M.Sc. projects and publication of research articles.
Later the same year, in December 2007, Prof. Prosun Bhattacharya and his GARG collaborators received SEK 9.4 million as a major grant from the Department of Natural Resources and the Environment within the Swedish International Development Cooperation Agency (Sida), for a four-years project (2007-10) titled ”
Read also an article in MISTRA’s newsletter 9/2009, page 10-11 (in Swedish only).
Mattias von Brömssen (photo) works as Department Manager at Ramböll Sweden in Stockholm, at its Department for Soil and Water Environment, but is at the same time PhD Candidate at the Royal Institute of Technology.
He defended his doctoral dissertation entitled ”Hydrogeological and geochemical assessment of aquifer systems with geogenic arsenic in Southeastern Bangladesh – Targeting low arsenic aquifers for safe drinking water supplies in Matlab” on Friday 20 January 2012. The faculty opponent was Professor David Polya, University of Manchester, United Kingdom. The thesis covers a crucial period of the work on the arsenic problems in groundwater in Bangladesh. Especially it includes the discovery of the local drillers ́ strategy to find low iron groundwater by assessing the colour of the sediments. With the link between mobilisation of arsenic along with iron which was published by a KTH team in 1997 this gave an immediate hint on means of predicting arsenic low groundwater during well construction. The strategy was discovered by the author of the thesis when he was advising a M.Sc. thesis project. The “sediment colour strategy” leads to a number of questions that has to be answered, notably the risk of cross contamination of arsenic low sediment sequences. Essentialy three crucial issues are dealt with in the thesis, the groundwater flow pattern, the adsorption characteristics and redox buffering of the low arsenic layers. The insight gained indicates that the strategy of finding low arsenic aquifers is sustainable. The methods used comprised of groundwater and sediment sampling, detailed chemical analysis of water, sediment extractions, mineralogical investigations and hydrogeochemical- and groundwater flow modelling. However, the groundwater extraction for irrigation is a threat in the way it is practised today and would be even more so if low arsenic deep wells are constructed for the purpose. Read the full dissertation (as a pdf-file)
In November 2005 this project received SEK 1.2 Million from Sida/SAREC for a two years period (2006-07). It has been carried out through a co-operation between Ramböll, KTH, University of Dhaka and NGO Forum for Drinking Water Supply and Sanitation. His supervisors in the project were Prof. Prosun Bhattacharya, Prof. Gunnar Jacks, and
Dr. Jakaiya was supervised by Prosun Bhattacharya.
Read the full dissertation (as a pdf-file)
Md. Aziz Hasan from the Dept. of Geology, University of Dhaka, has also done a PhD at the department, supervised by Prosun Bhattacharya. He defended his doctoral l dissertation titled ”Arsenic in alluvial aquifers in the Meghna basin, South-Eastern Bangladesh: Hydrogeological and geochemical characterisation” on Wednesday 5 November 2008. The study reveals that the local and regional scale variations in groundwater composition, levels of As concentrations and the redox conditions are governed by the geological attributes of the aquifers. Groundwater in the grey to dark grey argillaceous sediments where organic matter and micas are abundant contain high concentration of dissolved As. High concentrations of As and salinity are the major constraints for groundwater development in the Holocene alluvial aquifers of the Meghna basin. Abstraction of groundwater from the Holocene deeper low-As aquifers for drinking purposes should thus be be properly guided to minimise the risk of cross-contamination and installation of high-capacity irrigation wells in the deeper aquifers must be avoided for sustainable drinking water supplies. Read the full dissertation (as a pdf-file).
Currently, PhD candidate Mohammed Hossain Tipu from the University of Dhaka, carries out research at the department, also supervised by Prosun Bhattacharya. Mr. Hossain is working for the NGO Forum in Bangladesh, and is national coordinator for the Sustainable Arsenic Mitigation (SASMIT) project research project, mentioned above.
|Arifin Sandhi assessing the rice grain in one of the arsenic prone areas located in Matlab, Bangladesh|
Arifin Sandhi (photo) joined the department in September 2011 as a PhD student, after completing completed a Masters in Ecology from Stockholm University in 2011, and before that a Bachelors degree in Agril. Science from Sher-e-Bangla Agricultural University (SAU) in Dhaka, Bangladesh in 2007.
Personal web page.
Arifin is now working in the KTH-GARG (Global Arsenic Research Group) with a PhD project entitled ”Assessment of arsenic and manganese of in the soil and groundwater and accumulation in rice”.
He is supervised by Professor Prosun Bhattahcharya and Professor Emeritus Gunnar Jacks at his own department, plus Professor Maria Greger at Stockholm University. The project is financed by Swedish International Development Cooperation Agency (Sida).
Abstract: Presence of high level of arsenic in groundwater and soil is one of the major problems in Bangladesh. A number of divergent carcinogenic diseases occurred by this toxic trace metalloid. Besides arsenic, high level of manganese in the groundwater also considered one of the potential health threats. The agricultural system of Bangladesh depends on groundwater based irrigation system. Due to this irrigation activity, high level of arsenic and manganese comes to the top soil and it becomes more bioavailable for the crop plant species.
A significant number of studies have done in the arsenic affected areas in Bangladesh to mitigate the arsenic contamination from the drinking water. Compared with drinking water contamination, arsenic accumulation through food crops not focused much. Besides drinking water, by consumption of arsenic enriched food crop and grain also become one of the major pathways of arsenic in the human body.
|Ashis Biswas and Dipti Halder.|
PhD candidate Ashis Biswas is a M.Sc in Analytical Chemistry from the University of Kalyani, West Bengal, India. He came to KTH as a scholarship holder of the Erasmus Mundus External Cooperation Window programme EURINDIA. His doctoral dissertation project is entitled ”Delineation of safe aquifer and its sustainability in arsenic affected region of West Bengal, India”. His principal adviser is Prof. Prosun Bhattacharya, but the co-Adviser Group consists also of Prof. (Em.). Gunnar Jacks; Prof. Debashis Chatterjee (University of Kalyani, India); Prof. Kazi Matin Ahmed (University of Dhaka, Bangladesh); Dr. Abhijit Mukherjee (IIT-Kharagpur, India); and Dr. Bibhash Nath (The University of Sydney, Australia).
PhD candidate Dipti Halder has the same background at Kalyani University, India, and is financed by the Eurindia mobility programme. She is working on a doctoral dissertation project entitled ”Evaluation of Dietary Arsenic Exposure in Arsenic Affected Regions of West Bengal, India”, and being supervised by Prof. Prosun Bhattacharya.
Research scientist Nandita Singh, is involved in a project on “
Partners in the project are (in Sweden)
In August 2005 Nandita Singh again received a SASNET planning grant for an interdisciplinary research project related to the issue of sustainable water management in India. More information on the August 2005 SASNET grants.
The new project is named ”
In November 2005 Nandita Singh also received SEK 500 000 as a one-year grant from Sida/SAREC for this project.
Abstract of project: The right to water is an important human right within the category of economic, social & cultural rights where special attention is paid to women as a group traditionally facing difficulties in exercising the right. However, large-scale violations of the right are reported to persist in the developing world, India being a significant case where despite positive actions by the state towards its protection & fulfilment with focus on women, a substantial number of them are unable to enjoy the right effectively. This planning project will explore the hypothesis that the origin of the problem lies in factors embedded within the socio-cultural context of the women, that play a critical role at the ‘third’ level of implementation of human rights law - at the ‘interface’ between the state and the local actors. An understanding of the nature of the factors is aimed to be developed through the planning exercise, coupled with identification of micro-level specificities in this connection through joint planning exercises with the partners in India who have knowledge and experience in relation to human rights and women’s development. An interdisciplinary insight on the problem, based in Anthropology and Sociology of Law, is expected to enable more comprehensive understanding and interpretation as well as facilitate formulation of an integrated strategy for overcoming the barriers in the Indian context that will constitute the final objective of the proposed research.
At the Sida-funded conference on current Swedish development research titled ”
Abstract: One of the targets of the UN Millennium Development Goals (MDGs) is to halve the number of people without sustainable access to safe drinking water by 2015. It is believed that one of the ways to add impetus to the ongoing efforts is to explicitly recognize water as a ‘human right’, with a focus on ensuring the right of women and children, who are seen to be the worst sufferers from lack of sustainable water access. It is assumed that focus on the human right to water (HRW) would serve as a means to increase the pressure on governments and international agencies to translate the right into specific national and international legal obligations and responsibilities, thus paving the way for ensuring water access for all (UNESCO, 2006).
This assumption has been examined by the authors within the scope of two different research projects supported by Sida-Sarec. Using an actor-oriented perspective that further made a distinction between ‘implementation’ and ‘realization’ of human rights, these projects attempt to understand how the globally formulated norms concerning water as a human right get translated
into action at the local level. The first project looked at the HRW of women while the second one focuses on the right of children. The research is based upon empirical studies in different parts of India and refers to the right to water situation in areas affected by problems of water quality and quantity.
The findings of the research indicate that realization of HRW essentially involves dynamics at the ‘third level’ of human rights implementation. This constitutes the interface between the community and the agency where action towards fulfillment of the right is ultimately unfolded. Following the rights-based approach to development, two kinds of actors were identified – the ‘rights-holders’ (women and children) and the ‘duty-bearers’ (government, NGOs, international development agencies). The contextual factors that influence the realization of the HRW of women and children as separate right-holder groups can be classified into two categories: first, the nature of human rights approach adopted by the agency (if any) and second, the socio-cultural
factors in the community context that lead to re-construction of the right at the local level. The dynamics of interaction between the two sets of factors are complex and need to be understood as contextual realities. On the whole, the latter have been found to have significant influence on the equitable, effective and sustainable realization of the HRW.
From the preliminary findings of the research, it can be concluded that mere legislative actions at international and national forums for implementing the HRW may not offer enough benefits towards ensuring progress towards the MDGs. There is a need to explore the dynamics at the‘third’ level and consider how the learnings can be integrated into the global and state initiatives so as to promote water justice for women and children.
|Mr. Om Prakash Singh in front of the photo-exhibition at the 2008 World Water Week in Stockholm.|
During the World Water Week 16-23 August 2008, Dr. Nandita Singh, along with her husband, Mr. Om Prakash Singh who is a visual anthropologist, presented a photo-exhibition titled ‘Urban Water Challenges’. The exhibition – that turned out to be one of the most highly visited stalls at the Week – was supported by the Swedish Water House. It displayed large-sized black and white photographs portraying the looming water crisis in Delhi both in terms of quantity and quality. Aimed at sensitising the various stakeholders who share a concern with water – the policy-makers, planners, other development actors and the research community – each photograph depicted a significant theme, including water corruption, gender sensitivity, gender equality, water conflicts, water pollution, children and water, sanitation and water scarcity.
Dr. Singh was also an invited speaker at the Seminar on the Right to Water and Sanitation – Approaches and Practical Implications, convened by SIWI, UNDP, Swedish water House, COHRE, SIDA and UN-Habitat. Her presentation, titled ‘Role of socio-cultural context in realization of the Right in India’, outlined the findings of her research on the right of women and children to water in India, carried out in collaboration with partners at the Division of Sociology of Law, Lund University and supported by Sida-Sarec.
Dr. Singh also presented a paper in the Workshop on ‘The lingering failure of sanitation-Why? Her paper titled ‘Total sanitation efforts in India: Problems and prospects’ invited wide attention as it highlighted the importance of looking at sanitation as an issue of ‘behavioural change’ that cannot be addressed through mere installation of sanitary infrastructure and counting of numerical targets.
On 19th September 2008, Dr. Singh, along with Prof. Karsten Åström from the Division of Sociology of Law, LU, have been invited to make a presentation at the Social Sciences Day Seminar on “Conflicts around Water: Struggle about our most important resource” organised by Lund University. Their presentation will be on the topic ‘Human right to water in India: Problems and prospects’ where using an actor-oriented perspective, the process of ‘realization’ of the right at the micro-level will be seen as influenced by two sets of contextual factors at the ‘interface’ between the duty-bearers and the right-holders, these being embedded in the implementation context introduced by the former and the socio-cultural context lived in by the latter.
Dr. Nandita Singh is responsible for 7,5 credits course titled ”Gender issues in Developing Countries” that was first held in the Fall 2007. The course aims at imparting integrated theoretical and practical knowledge on gender and development issues in the South to students, researchers, teachers and development practitioners in different kinds of agencies in Sweden. More information.
Professor Vladimir Cvetkovic is also working on an India related research project. In November 2007, he was given SEK 1.2 million as a three-years grant (2008-10) from Sida's Developing Country Research Council (U-landsforskningsrådet), for a project titled ”Assessing groundwater vulnerability and risks from on-site sanitation - General method development and case study”. More information about the Sida grants 2007.
Prof. Cvetkovic has been involved in collaboration with the Centre for Water Resources Development and Management (CWRDM) in Kozhikode, one among the R&D institutes of the Kerala State Council for Science, Technology and Environment (KSCTE). In 2005, Dr. P.S. Harikumar from the Chemical Sciences division of CWRDM visited Sweden, and was a visiting scientist working at KTH with Prof. Cvetcovic.
The KTH-International Groundwater Arsenic Research Group (GARG) is regularly engaged in International conferences, symposia and workshops, see a list on http://www.lwr.kth.se/Personal/personer/bhattacharya_prosun//Garg/conferences.htm
In February 2006, GARG was involved in organising an International Conference on ”Groundwater for Sustainable Development: Problems, Perspectives and Challenges” (IGC-2006) in collaboration with the School of Environmental Sciences, Jawaharlal Nehru University (JNU), New Delhi, India, and other partners. The conference was held at India International Center in New Delhi. More information.
On Wednesday 16 February 2005 the Swedish Radio Channel 1/Vetenskapsradion broadcasted a programme on the Arsenic contamination of groundwater in Bangladesh. The programme was called ”Arsenik i grund och botten”, and was based upon interviews with Prosun Bhattacharya, and Professor Marie Vahter from the Division of Metals & Health, Institute of Environmental Medicine; Karolinska Institutet , Stockholm.
Full information on the programme (in Swedish only). Here is also a link to listen to the programme through web radio.
In 2005, Prosun Bhattacharya edited a new book on “
The book release was officiated by Professor
It was extended to be an India Evening, attended by among others the new Ambassador of India to Sweden,
She gave a speech on ”Challenges for safe drinking water in India – Achievement of the Millennium Development Goals”. The ambassador of Bangladesh, Mr.
Prof. Emeritus Gunnar Jacks lectured on ”A walk through the past – Our Experiences with Groundwater Resources in India”, about the 30 years of Indo-Swedish interaction between the department and the Tamil Nadu Agricultural University in Coimbatore, whereas
Staffan Lindberg and Lars Eklund from SASNET were also present at the function, and Prof. Lindberg was given the opportunity to present SASNET’s activities for the audience.
On Friday 18 April 2008, a new book project, “Groundwater for Sustainable Development: Problems, Perspectives and Challenges”, was launched by KTH through its International Groundwater Arsenic Research Group (GARG), Department of Land and Water Resources Engineering; and the International Society of Groundwater for Sustainable Development (ISGSD). The book has been dedicated to Prof. Emeritus Gunnar Jacks.
The volume is based on papers presented at the International conference held in New Delhi in February 2006 (see above), and it has been edited by Prosun Bhattacharya (KTH, Stockholm), AL. Ramanathan (JNU, New Delhi) , Arun B. Mukherjee (University of Helsinki, Finland), Jochen Bundschuh (ICE,Costa Rica), D. Chandrashekharam (IIT Bombay, India) and Ashok K. Keshari (IIT Delhi, India) and published by Taylor & Francis Group plc, London, UK.
A colloquium on Groundwater for Sustainable Development was held on the occasion of the book launch. Gunnar Jacks talked about ”Visions on Sustainable Development of Groundwater Resources in Developing Countries”; Prof. Ramon Wyss (Advisor to the KTH President) talked about ”Current initiatives on Indo-Swedish collaborations – the INSTEC Platform”; Prof. Bjorn Hårsman (Dean, School of Architecture and Built Environment, KTH), talked about ”Groundwater Resources in Built Environment and Sustainability”; and Prof. Hans Lundberg (IVL) talked about ”Sustainable Urban Development in Developing Countries”. Venue: KTH, Styrelserummet, Valhallavägen 79, Stockholm. More information about the book launch and the colloquium.