<p>Section 1: Water Resilience: Vulnerability and Response</p><p>i. Problem, perspective and challenges of water monitoring</p>ii. Water resilience to natural and human disasters<p></p><p>iii. Food-Energy-Water-Ecosystem Services Nexus</p>iv. Water supply, urbanization and climate change<p></p><p>v. Integrative risk assessment and water management</p><p> </p><p>Section 2: Data science and engineering for water system</p><p>vi. Water Data: modeling, uncertainty, and security</p>vii. Standardization, Interoperability, and data sharing<p></p><p>viii. Analytics in Water Resource</p>ix. Visualization and synthesis of the multi-dimensional water system<p></p><p>x. Water Indices: specification, criteria and application</p><p> </p><p>Section 3: Innovation in operational water management</p><p>xi. Engineering water supply for conservation, resiliency, and sustainability</p>xii. Water quality treatments and natural remediation of water contaminants<p></p><p>xiii. Shifts and trends of water quality analyses</p>xiv. Paradigms of life cycle, vulnerability and cost benefit analyses for water<p></p><p>xv. Modeling human behavior and decision making</p><p> </p><p>Section 4: Policy and Mitigation</p><p>xvi. Bridging water quality and quantity for adaptive management</p>xvii. Preparedness and awareness in sanitization for health and prosperity<p></p><p>xviii. Science, sense and sensibility for water quality mitigation and policy making</p>xix. Collaborations and conflicting interest across government and interstate conflicts<p></p><p>xx. Language of water science: common ground for scientist, stake holders and managers</p><p> </p>
