PhD research presentation at the workshop of the Climate Food and Farming Network, Dec. 2-4 at Aarhus University, Foulum. The Climate Food and Farming Network is an initiative of Copenhagen U., Aarhus U., and the CGIAR Research Program on Climate Change, Agriculture and Food Security.
Modification and Climate Change Analysis of surrounding Environment using Rem...iosrjce
This review is presented in three parts. The first part explains such terms as climate, climate change,
climate change adaptation, remote sensing (RS) and geographical information systems (GIS). The second part
highlights some areas where RS and GIS are applicable in climate change analysis and adaptation. Issues
considered are snow/glacier monitoring, land cover monitoring, carbon trace/accounting, atmospheric
dynamics, terrestrial temperature monitoring, biodiversity conservation, ocean and coast monitoring, erosion
monitoring and control, agriculture, flood monitoring, health and disease, drought and desertification. The
third part concludes from all illustrated instances that climate change problems will be less understood and
managed without the application of RS and GIS. While humanity is still being plagued by climate change effects,
RS and GIS play a crucial role in its management for continued human survival. Key words: Climate, Climate
Change, Climate Change Adaptation, Geographical Information System and Remote Sensing.
Measurement of Carbon content in plots under SFM and SLM in the Gran Chaco Am...ExternalEvents
This presentation was presented during the 2 Parallel session on Theme 1, Monitoring, mapping, measuring, reporting and verification (MRV) of SOC, of the Global Symposium on Soil Organic Carbon that took place in Rome 21-23 March 2017. The presentation was made by Mr. Matías Bosio, from PASCHACO - Argentina, in FAO Hq, Rome
PhD research presentation at the workshop of the Climate Food and Farming Network, Dec. 2-4 at Aarhus University, Foulum. The Climate Food and Farming Network is an initiative of Copenhagen U., Aarhus U., and the CGIAR Research Program on Climate Change, Agriculture and Food Security.
Modification and Climate Change Analysis of surrounding Environment using Rem...iosrjce
This review is presented in three parts. The first part explains such terms as climate, climate change,
climate change adaptation, remote sensing (RS) and geographical information systems (GIS). The second part
highlights some areas where RS and GIS are applicable in climate change analysis and adaptation. Issues
considered are snow/glacier monitoring, land cover monitoring, carbon trace/accounting, atmospheric
dynamics, terrestrial temperature monitoring, biodiversity conservation, ocean and coast monitoring, erosion
monitoring and control, agriculture, flood monitoring, health and disease, drought and desertification. The
third part concludes from all illustrated instances that climate change problems will be less understood and
managed without the application of RS and GIS. While humanity is still being plagued by climate change effects,
RS and GIS play a crucial role in its management for continued human survival. Key words: Climate, Climate
Change, Climate Change Adaptation, Geographical Information System and Remote Sensing.
Measurement of Carbon content in plots under SFM and SLM in the Gran Chaco Am...ExternalEvents
This presentation was presented during the 2 Parallel session on Theme 1, Monitoring, mapping, measuring, reporting and verification (MRV) of SOC, of the Global Symposium on Soil Organic Carbon that took place in Rome 21-23 March 2017. The presentation was made by Mr. Matías Bosio, from PASCHACO - Argentina, in FAO Hq, Rome
Near surface gas monitoring at the CO2 Field Lab, Norway - presentation by Sarah Hannis in the Test Injection Sites session at the UKCCSRC Cardiff Biannual Meeting, 10-11 September 2014
Summary of DART Electromagnetic Methodology 100111DART Project
A summary of the proposed Electromagnetic methodology to be used on the DART project. Presented at the academic and stakeholder meetings (10th and 11th January 2011 respectively) by David Stott (Leeds University).
This preview presents a summary of four selected research on remote sensing drought assessment and impacts at both the regional and global levels as part of the course requirement for remote sensing for global environmental change. The papers are presented by Richard MacLean, graduate student in Geographic Information Systems for Development and Environment and Jenkins Macedo, graduate student in Environmental Science and Policy.
Prediction of Soil Total Nitrogen Content Using Spectraradiometer and GIS in ...Agriculture Journal IJOEAR
— In this study, soil samples were collected from two locations: Samawa and Rumetha in southern Iraq. The samples from each location were split into two datasets: calibration set and validation set. VNIR reflectance (350-2500 nm) and GIS-Kriging were used in combination with Partial Least Square (PLS) to predict total N. only two regions reported higher determination coefficient R 2 and lower Root Mean Square Error (RMSE) than the other wavelength regions. PLS calibration models yielded an R 2 of 0.96 and 0.97 for Rumetha and 0.87 and 0.94 for Samawa location in bands at 500-600 and 800-1000 nm, respectively. The potential of VNIR-based and GIS-Kriging models to predict new unknown soil samples were assessed by using validation datasets from both studied locations. The cross-validation of GIS-Kriging models were unsatisfactory predicted with an Q 2 of 0.28 between laboratory-measured and predicted total N values for Rumetha and 0.43 for Samawa location. While VNIR-based validation models achieved highly predictive power with an R 2 v of 0.84 between laboratory-measured and predicted total N values for Rumetha and 0.85 for Samawa location. These results reveal extremely decreasing in model predictive ability when shifting from VNIR Spectroscopy method to GIS-Kriging.
Surface Soil Moisture and Groundwater Assessment and Monitoring using Remote ...Jenkins Macedo
This preview is part of the requirement for a comprehensive analysis of remotely sensed surface soil moisture and groundwater assessment and monitoring for global environmental and climate change presented by Christina Geller, candidate for the degree of MSc in Geographic Information Science for Development, and Environment and Jenkins Macedo, candidate for the MS in Environmental Science and Policy at the Department of International Development, Community, and Environmental at Clark University.
A presentation given by Anthony Beck at the Archpro workshop1 in Vienna. The workshop was instigated by the Ludwig Boltzmann Institute.
This presentation provides an overview of the DART project with particular emphasis on the techniques and methodology
Near surface gas monitoring at the CO2 Field Lab, Norway - presentation by Sarah Hannis in the Test Injection Sites session at the UKCCSRC Cardiff Biannual Meeting, 10-11 September 2014
Summary of DART Electromagnetic Methodology 100111DART Project
A summary of the proposed Electromagnetic methodology to be used on the DART project. Presented at the academic and stakeholder meetings (10th and 11th January 2011 respectively) by David Stott (Leeds University).
This preview presents a summary of four selected research on remote sensing drought assessment and impacts at both the regional and global levels as part of the course requirement for remote sensing for global environmental change. The papers are presented by Richard MacLean, graduate student in Geographic Information Systems for Development and Environment and Jenkins Macedo, graduate student in Environmental Science and Policy.
Prediction of Soil Total Nitrogen Content Using Spectraradiometer and GIS in ...Agriculture Journal IJOEAR
— In this study, soil samples were collected from two locations: Samawa and Rumetha in southern Iraq. The samples from each location were split into two datasets: calibration set and validation set. VNIR reflectance (350-2500 nm) and GIS-Kriging were used in combination with Partial Least Square (PLS) to predict total N. only two regions reported higher determination coefficient R 2 and lower Root Mean Square Error (RMSE) than the other wavelength regions. PLS calibration models yielded an R 2 of 0.96 and 0.97 for Rumetha and 0.87 and 0.94 for Samawa location in bands at 500-600 and 800-1000 nm, respectively. The potential of VNIR-based and GIS-Kriging models to predict new unknown soil samples were assessed by using validation datasets from both studied locations. The cross-validation of GIS-Kriging models were unsatisfactory predicted with an Q 2 of 0.28 between laboratory-measured and predicted total N values for Rumetha and 0.43 for Samawa location. While VNIR-based validation models achieved highly predictive power with an R 2 v of 0.84 between laboratory-measured and predicted total N values for Rumetha and 0.85 for Samawa location. These results reveal extremely decreasing in model predictive ability when shifting from VNIR Spectroscopy method to GIS-Kriging.
Surface Soil Moisture and Groundwater Assessment and Monitoring using Remote ...Jenkins Macedo
This preview is part of the requirement for a comprehensive analysis of remotely sensed surface soil moisture and groundwater assessment and monitoring for global environmental and climate change presented by Christina Geller, candidate for the degree of MSc in Geographic Information Science for Development, and Environment and Jenkins Macedo, candidate for the MS in Environmental Science and Policy at the Department of International Development, Community, and Environmental at Clark University.
A presentation given by Anthony Beck at the Archpro workshop1 in Vienna. The workshop was instigated by the Ludwig Boltzmann Institute.
This presentation provides an overview of the DART project with particular emphasis on the techniques and methodology
A presentation given by Anthony Beck at the Royal Agricultural College, Cirencester on 14th February 2012. This presentation describes the data collected by the DART project and encourages members of the local communities to exploit this data.
It covers data, formats, licences, software, applications. This introductory presentation was followed up with an afternoon hands-on workshop.
Inrap and geophysics: towards a sustainable approach door Hulin G., Direction...Onroerend Erfgoed
Studiedag 13 juni 2018: de rol van geofysisch onderzoek in het archeologieproces
Presentatie van de lezing Inrap and geophysics: towards a sustainable approach door Hulin G., Direction scientifique et technique, INRAP (Fr.)
Application of Magnetics Method in Forensic Search StudiesFashagba Imoleayo
This seminar presented describes forensic science and a geophysical method which could be utilised for forensic search studies. The method described here is the use of the Magnetic Susceptibility(MS) equipment for forensic search studies compared to other geophysical methods.
Paul Curtis CV Resume. Senior Petroleum Geologist / Geomodeller with over 13 years of industry experience from frontier prospect creation to brown field redevelopment. Expert geomodeller. Worked for different types of operator: small independent to major. Reliable and committed team player with vast experience of working closely with geophysicists, reservoir & petroleum engineers and drillers
Unleashing the potential of collaboration – archaeological detection in the 2...DART Project
Speakers – Anthony Beck/David Stott
Computers, the internet and mobile phones have changed how archaeologists work. More importantly it has changed how everybody can access, use and contribute to archaeology.
This has altered public expectations on modes of engagement and resource access. This is resulting in an increased demand for access to this data. This phenomena is not solely about archaeology and heritage but is reflected in many areas of society. Some governments have recognised that taxpayers, as funders of data, should be allowed to access and utilise this data more easily. This has underpinned the Open Data movement.
At the same time companies and institutions, like Google and NASA, started making large datasets available on the internet. Some of these organisations provided Application Programming Interface (API's) and other services so that software applications could be built around their data. Such software services made it easier for people to use this data to make new things (derive content) and in turn share these things with their communities. This produced the crowd-sourcing and citizen-science movements. Crowdsoucing is where products, ideas, or content are created by soliciting contributions from a large group of people online. The community mapping system called Open Street Map is a good example of crowdsourcing.
Other people want to be more active. Projects like Galaxy Zoo, Ancient Lives and Old Weather have helped free data trapped in books or help scientists collect and analyse data. National Geographic have sponsored a project to help detect archaeological sites in Mongolia using high spatial resolution satellite images (exploration.nationalgeographic.com/mongolia/home). With lots of people working together a big problem can turn into a small problem. These people are 'citizen scientists'.
This presentation will describe these movements in more detail and provide examples of their implications for the heritage sector. A vision will then be set out for the future of a collaborative framework for heritage management. This will be framed in the implications it has for practice, engagement, research, curation and policy. Public participation is welcomed!
Using multi-temporal benchmarking to determine optimal sensor deployment: adv...DART Project
A presentation given by Anthony Beck at EARSeL Gent on 20/09/12 describing some of the multi-temporal issues associated with archaeological detection. This presentation is primarily based on the research of David Stott.
A presentation by Anthony Beck presented at the workshop "Potential of satellite images and hyper/multi-spectral recording in archaeology"
Poznan – 31st June 2012
Archaeological detection using satellite sensorsDART Project
A presentation given by Anthony Beck at the workshop "Potential of satellite images and hyper/multi-spectral recording in archaeology"
Poznan – 31st June 2012
A presentation given at the workshop "Potential of satellite images and hyper/multi-spectral recording in archaeology"
By Anthony Beck
Poznan – 31st June 2012
An update on the progress of the DART project. Presented by Anthony Beck at the Consultant meeting on the 16th April 2012. The original prezi is available here: http://prezi.com/o2k18vxhpow7/dart_16042012_wherearewenow/
An update on the progress of the DART project. Presented by Anthony Beck at the Consultant/Stakeholder meeting on the 11th January 2012. The original prezi is available here: http://prezi.com/wsvu366ftd9k/dart_11012012_wherearewenow/
A presentation given by Anthony Beck at the Archpro workshop1 in Vienna. The workshop was instigated by the Ludwig Boltzmann Institute.
This presentation covers the applications of satellite platforms for archaeological prospection and heritage management.
Operation “Blue Star” is the only event in the history of Independent India where the state went into war with its own people. Even after about 40 years it is not clear if it was culmination of states anger over people of the region, a political game of power or start of dictatorial chapter in the democratic setup.
The people of Punjab felt alienated from main stream due to denial of their just demands during a long democratic struggle since independence. As it happen all over the word, it led to militant struggle with great loss of lives of military, police and civilian personnel. Killing of Indira Gandhi and massacre of innocent Sikhs in Delhi and other India cities was also associated with this movement.
How to Make a Field invisible in Odoo 17Celine George
It is possible to hide or invisible some fields in odoo. Commonly using “invisible” attribute in the field definition to invisible the fields. This slide will show how to make a field invisible in odoo 17.
Biological screening of herbal drugs: Introduction and Need for
Phyto-Pharmacological Screening, New Strategies for evaluating
Natural Products, In vitro evaluation techniques for Antioxidants, Antimicrobial and Anticancer drugs. In vivo evaluation techniques
for Anti-inflammatory, Antiulcer, Anticancer, Wound healing, Antidiabetic, Hepatoprotective, Cardio protective, Diuretics and
Antifertility, Toxicity studies as per OECD guidelines
13. Fieldwork at Harnhill (April 2011) Excavation of a boundary ditch at Cherry Copse Trenches manually excavated and recorded prior to sampling and probe installation
14. Fieldwork at Harnhill Not everything went as planned! Pipes in ditch at Quarry Field ….. but samples were collected and probes installed at both Quarry Field and Cherry Copse
15. Fieldwork at Harnhill (installation of monitoring equipment) Inserting a probe into the (non-archaeological) part of the section in Quarry Field The monitoring equipment under construction
16. Planned excavation and probe installation strategyfor Diddington Plan view Machine excavated trench Ditch Cross section view Present soil c. 0.30m ‘Geology’ ‘Geology’ Ditch fill Step 1. Trench surveyed in and present soil removed by machine to the level of the underlying geology / top of the uppermost ditch fill. Artefacts are recovered.
17. Strategyfor Diddington Plan view Cores inside ditch Machine excavated trench Cores outside ditch Ditch Hand excavate ditch fills Cross section view c. 1.00m Present soil c. 0.30m ‘Geology’ ‘Geology’ Ditch fills Step 2. Ditch fills are removed separately by hand until the ‘geology’ is reached. Artefacts recovered from each ditch fill are kept separate. Total station/GPS measurements are taken on the surface of the ‘geology’ to produce a surface model. Cores collected.
18. Strategyfor Diddington Plan view Machine excavated trench Ditch Cross section view c. 1.00m Present soil c. 0.30m 1.2m Ditch fills ‘Geology’ Step 3. Machine excavate trench to 1.2m depth across its entire area.
19. Strategyfor Diddington Plan view Hand and machine excavated trench Ditch Cross section view Present soil 1.2m ‘Geology’ Monolith samples Step 4. Draw and photograph both long sections. Collect geoarchaeological and geotechnical samples. Mark sample locations on section drawing and photograph in situ.
20. Strategyfor Diddington Plan view Machine excavated trench Ditch Cross section view Present soil 1.2m Data logger, batteries etc. ‘Geology’ Sensors Step 5. Install monitoring equipment (on opposite long section from the monolith samples) Step 6. Machine backfill trench and compact