Skip to main content

Fully funded Ph.D. opportunities in remote sensing of vegetation - McMaster University, Canada

2 fully funded Ph.D. opportunities in remote sensing of vegetation - McMaster University, Canada  

The Remote Sensing Lab at McMaster University (Hamilton, Ontario, Canada) is seeking two motivated and enthusiastic candidates for the Ph.D. program starting in Fall 2020 or earlier.   
The topics include but not limited to:  
(1) Global change (climate and atmospheric composition) impact assessment on terrestrial ecosystem productivity using long-term satellite data records  
(2) Photosynthesis phenology from satellite based solar-induced chlorophyll fluorescence (SIF) records  
(3) Plant structural and photosynthetic traits at Turkey Point Flux Station and/or Borden Forest Research Station  
Students must have MSc in remote sensing, Earth sciences, meteorology, atmospheric science, physics, or related fields, and good programming skills and remote sensing experience.  
Review of the applications will begin immediately. Qualified candidates should submit a CV and copy of their grade transcripts to Prof. Alemu Gonsamo (gonsamoa@mcmaster.ca).  
See https://lnkd.in/exda5YP for lab information.  
Please do not hesitate to contact me through e-mail if you have any questions regarding this position. Feel free to forward to anyone who may be interested.

Comments

Post a Comment

Popular posts from this blog

KSHEC Scholarship 2024-25

KSHEC Scholarship 2024-25 Alert! First-Year UG Students Only, Don't Miss This Golden Opportunity! πŸ’‘βœ¨ Are you a first-year undergraduate student studying in a Government or Aided College in Kerala? Do you need financial assistance to continue your education without stress? The Kerala State Higher Education Council (KSHEC) Scholarship is here to support YOU!  This scholarship is a lifeline for deserving students, helping them focus on their studies without worrying about financial burdens. If you meet the criteria, APPLY NOW and take a step towards a brighter future! 🌟 βœ… Simple Online Application – Quick & easy process!  πŸ“Œ Who Can Apply? βœ”οΈ First-year UG students ONLY βœ”οΈ Must be studying in an Arts & Science Government or Aided college in Kerala βœ”οΈ Professional Course students are not eligible  πŸ”Ή Scholarship Amounts Per Year: πŸ“Œ 1st Year FYUGP – β‚Ή12,000 πŸ“Œ 2nd Year FYUGP – β‚Ή18,000 πŸ“Œ 3rd Year FYUGP – β‚Ή24,000 πŸ“Œ 4th Year FYUGP – β‚Ή40,000 πŸ“Œ 5th Year PG – β‚Ή60,000  Great News...
Post a Comment
Read more

Disaster Management

1. Disaster Risk Analysis β†’ Disaster Risk Reduction β†’ Disaster Management Cycle Disaster Risk Analysis is the first step in managing disasters. It involves assessing potential hazards, identifying vulnerable populations, and estimating possible impacts. Once risks are identified, Disaster Risk Reduction (DRR) strategies come into play. DRR aims to reduce risk and enhance resilience through planning, infrastructure development, and policy enforcement. The Disaster Management Cycle then ensures a structured approach by dividing actions into pre-disaster, during-disaster, and post-disaster phases . Example Connection: Imagine a coastal city prone to cyclones: Risk Analysis identifies low-lying areas and weak infrastructure. Risk Reduction includes building seawalls, enforcing strict building codes, and training residents for emergency situations. The Disaster Management Cycle ensures ongoing preparedness, immediate response during a cyclone, and long-term recovery afterw...
Post a Comment
Read more

Pre During and Post Disaster

Disaster management is a structured approach aimed at reducing risks, responding effectively, and ensuring a swift recovery from disasters. It consists of three main phases: Pre-Disaster (Mitigation & Preparedness), During Disaster (Response), and Post-Disaster (Recovery). These phases involve various strategies, policies, and actions to protect lives, property, and the environment. Below is a breakdown of each phase with key concepts, terminologies, and examples. 1. Pre-Disaster Phase (Mitigation and Preparedness) Mitigation: This phase focuses on reducing the severity of a disaster by minimizing risks and vulnerabilities. It involves structural and non-structural measures. Hazard Identification: Recognizing potential natural and human-made hazards (e.g., earthquakes, floods, industrial accidents). Risk Assessment: Evaluating the probability and consequences of disasters using GIS, remote sensing, and historical data. Vulnerability Analysis: Identifying areas and p...
Post a Comment
Read more

Recovery and Rehabilitation

Disaster management involves several phases, including mitigation, preparedness, response, recovery, and rehabilitation . Recovery and rehabilitation are post-disaster activities that aim to restore normalcy and improve resilience in affected areas. 1. Recovery Recovery is the long-term process of rebuilding communities, infrastructure, economy, and social systems after a disaster. It focuses on restoring normalcy while incorporating resilience measures to withstand future disasters. Short-term Recovery – Immediate efforts within weeks or months to restore essential services (e.g., water, electricity, healthcare, shelter). Long-term Recovery – Efforts that take months to years, including rebuilding infrastructure, economic revitalization, and mental health support. Resilience – The ability of a community to recover quickly and adapt to future disasters. Livelihood Restoration – Providing economic support to affected populations through job creation, skill training, a...
Post a Comment
Read more

Mapping Process

The mapping process involves several systematic steps to transform real-world spatial information into a readable, accurate, and useful representation. Below is a structured explanation of each step in the mapping process, with key concepts, terminologies, and examples. 1. Defining the Purpose of the Map Before creating a map, it is essential to determine its purpose and audience . Different maps serve different objectives, such as navigation, analysis, or communication. Types of Maps Based on Purpose: Thematic Maps: Focus on specific subjects (e.g., climate maps, population density maps). Topographic Maps: Show natural and human-made features (e.g., contour maps, landform maps). Tourist Maps: Highlight attractions, roads, and landmarks for travelers. Cadastral Maps: Used in land ownership and property boundaries. Navigational Maps: Used in GPS systems for wayfinding. Example: A disaster risk map for floods will highlight flood-prone areas, emergency shelters, and ...
Post a Comment
Read more