Australian Curriculum | Wet Rocks.
Water graph info. 4610.0 - Water Account for Australia, 1993-94 to 1996-97. Australians Use More Than 1 Million Litres of Fresh Water Per Person Each Year Despite living on the driest continent on earth, Australians used more than 1 million litres of fresh water per person during 1996-97 according to a report released by the Australian Bureau of Statistics (ABS) today. Of the 22,186 Gigalitres (GL) consumed in 1996-97 in Australia, agriculture accounted for 15,502 GL (70%), households; 1, 829 GL (8 percent), water supply, sewerage and drainage services; 1,706 GL (8 percent), electricity and gas; 1,308 GL (6 percent), manufacturing; 728 GL (3 percent) and mining; 570 GL (3 percent). (One Gigalitre is 1 billion litres.) Agriculture consumed the vast majority of the water, but the economic return per unit of water used was relatively low. The agricultural sector earned $588 of industry gross product per megalitre (ML) water used.
Irrigated production accounted for 26 percent of the total gross value of production from agriculture. Natural Resource Accounts. Lesson Plans. Aligned with national standards, the lesson plans and mini-units include elementary, middle and high school levels. Funding for this global water supply curriculum project was provided by the Open Square Foundation. Stand-alone lesson plans are part of larger units that cover a broad scope of subjects including English, science and technology, and social sciences like geography, civics and economics. Classroom activities cover everything from poetry seminars and vocabulary-building worksheets to science and math lessons about potable water availability.
Check out the Resource page for additional class project content. Students can also raise money to help those in need. Full Curriculum Downloads Elementary Curriculum pdfMiddle School Curriculum pdfHigh School Curriculum pdf Elementary Curriculum - by Unit Middle School Curriculum - by Unit High School Curriculum - by Unit Additional Resources Download the Discussion Guide to facilitate adult group conversation about the Water Crisis. Australian Water Education Resources - Home Page. Vital Water Graphics. The terms of the equation remain simple: for the next few decades, given the volume of available water, and under the present circumstances, will it be possible to provide enough water to a population forecast to be at least 9 billion by 2050 (according to the medium hypothesis proposed by the United Nations) using a volume which will be roughly the same as it is now?
In the context of stress and scarcity, the challenge will be to find creative ways to manage water resources without emphasizing already existing disputes and conflicts. This is raising important questions: is it reasonable to envisage more long distance water transfer without threatening water reserves and harming environmental balance? Which are the countries and regions that will suffer the most due to lack of water? And in which countries will an important part of the population still have to wait for decades before being supplied with improved water? Freshwater resources: volume by continent - Vital Water Graphics.
Glaciers and ice caps cover about 10% of the world’s landmass. These are concentrated in Greenland and Antarctica and contain 70% of the world’s freshwater. Unfortunately, most of these resources are located far from human habitation and are not readily accessible for human use. According to the United States Geological Survey (USGS), 96% of the world’s frozen freshwater is at the South and North Poles, with the remaining 4% spread over 550,000 km2 of glaciers and mountainous icecaps measuring about 180,000 km3 (UNEP, 1992; Untersteiner, 1975; WGMS, 1998, 2002). Groundwater is by far the most abundant and readily available source of freshwater, followed by lakes, reservoirs, rivers and wetlands. Groundwater represents over 90% of the world’s readily available freshwater resource (Boswinkel, 2000). The amount of groundwater withdrawn annually is roughly estimated at 600-700 km3, representing about 20% of global water withdrawals (WMO, 1997).
Water footprint and virtual water. Lesson Plans - Water, Water Everywhere. Grades 9-12 Overview: Most Americans take an endless supply of drinkable water for granted. This is not so in all parts of the world . The goal of this lesson is to familiarize students with the realities about water supply in other nations, as well as in the United States, and what the future holds. Connections to the Curriculum: Geography, physical science, computer science, current events Connections to the National Geography Standards: Standard 4: "The physical and human characteristics of places" Standard 7: "The physical processes that shape the patterns of Earth's surface" Standard 11: "The patterns and networks of economic interdependence on Earth's surface" Standard 13: "How the forces of cooperation and conflict among people influence the division and control of Earth's surface" Time: Two to three hours Materials Required: Computer with Internet access Objectives: Geographic Skills: S u g g e s t e d P r o c e d u r e Opening: Development: Closing: Suggested Student Assessment:
The World's Water. Getting good data on the many issues related to freshwater has long been a challenge. Here you will find data tables from The World’s Water series. The World’s Water Vol. 8 Select Content (2014) Table of Contents Introduction Chapter 1 (v. 8): Global Water Governance in the Twenty-First Century, Heather Cooley, Newsha Ajami, Mai-Lan Ha, Veena Srinivasan, Jason Morrison, Kristina Donnelly, Juliet Christian-SmithChapter 4 (v. 8): Hydraulic Fracturing and Water Resources: What Do We Have to Know?
, Heather Cooley and Kristina DonnellyWater Brief 2 (v. 8): The Red Sea-Dead Sea Project Update , Kristina DonnellyWater Brief 3 (v. 8): Water Conflict: Events, Trends, and Analysis, Peter Gleick and Matthew Heberger The World’s Water Volume 8 Data (2014) The World’s Water Select Content Chapter 4 (v. 7): Fossil Fuel and Water Quality, Lucy Allen, Michael J. The World’s Water Volume 7 Data (2011) The World’s Water 2008-2009 Data The World’s Water 2006-2007 Data The World’s Water 2002-2003 Data Maps Documents.