Ecodaily

As the world continues to grapple with climate change, forest carbon offsets have emerged as a promising solution. By preserving and protecting forests, we can capture and sequester carbon from the atmosphere, reducing greenhouse gas emissions. Not only does this benefit the environment, but it also creates economic opportunities for communities that rely on the forest for their livelihoods. Introduction to Forest Carbon Offsets For years, companies have been given an option to deal with their environmental impact: cancel out their carbon pollution by paying for efforts that protect the forests. That’s essentially the idea behind forest carbon offsets.  If you’re a landowner who wants to earn extra from keeping your trees standing, forest offsets suit you well. Or perhaps you’re a company owner willing to support forest protection initiatives, forest carbon offsets are perfect for you.  Either way, let’s help you unders...

There is a new doomer narrative over artificial intelligence emerging in the background at this year’s COP meeting. This one isn’t focused on a malignant superintelligence. Instead, it is over sustainability and concerns over AI’s burgeoning energy demands. A recent study projects that by 2027, NVIDIA’s new AI servers will be consuming over 85.4 terawatt-hours annually, exceeding the energy usage of countries such as Sweden and Argentina. Research from the University of Massachusetts Amherst suggesting that training a single AI model can emit over 284 tonnes of CO2, equivalent to the lifetime emissions of five average American cars, paints a concerning picture of AI’s environmental impact. Annually, AI’s carbon footprint is approaching 1% of global emissions. AI’s energy demands have indeed increased dramatically. A Stanford study flags a 300,000-fold rise in AI systems’ power requirements sinc...

Open Access Government takes a closer look at the hydrology and surficial geology in Alaska to illustrate the broader picture of geology in the region, primarily focusing on Permafrost and Periglacial Studies From reporting on oil and mineral finds to helping in the aftermath of deadly mudslides, the Division of Geological & Geophysical Surveys (DGGS) in Alaska staff tirelessly put effort into growing the economy and safeguarding their communities. Investing in geology is essential for commercializing and discovering Alaska’s untapped gas, oil, coal, and mineral resources and preventing geologic risks to Alaskans. Under the banner of the Director’s Office, the DGGS consists of five sections: the Geologic Materials Center and the Alaska Geospatial Office. The Director’s Office oversees strategic planning for the Division’s programs to ensure DGGS serves the community’s needs, oversees the Division’s financi...

In devasting cases dotting the globe in recent years, climate warming has led to an increase in the number and severity of destructive wildfires. Climate change projections indicate that environmental and economic damage from wildfires will spread and escalate in the years ahead. While studies have analyzed impacts on land, new research from the University of California San Diego and other institutions indicates that aquatic ecosystems are also undergoing rapid changes as a result of wildfires. Led by School of Biological Sciences Professor Jonathan Shurin’s laboratory, the researchers compared how aquatic systems change with the input of burnt plant matter, including effects on food webs. Their results are featured in two research studies published in the journal Global Change Biology. Among the findings emerging from the research, scientists show that fire chemically transforms plant debris and changes the role of aquatic ecosystems as key pla...

In November of 2020, a freak wave came out of the blue, lifting a lonesome buoy off the coast of British Columbia 17.6 meters high (58 feet). The four-story wall of water was finally confirmed in February 2022 as the most extreme rogue wave ever recorded at the time. Such an exceptional event is thought to occur only once every 1,300 years. And unless the buoy had been taken for a ride, we might never have known it even happened. For centuries, rogue waves were considered nothing but nautical folklore. It wasn’t until 1995 that myth became fact. On the first day of the new year, a nearly 26-meter-high wave (85 feet) suddenly struck an oil-drilling platform roughly 160 kilometers (100 miles) off the coast of Norway. At the time, the so-called Draupner wave defied all previous models scientists had put together. Since then, dozens more rogue waves have been recorded (some even in lakes), and while the one that surfaced near Ucluele...