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New South Dakota “Hotspots” Page – Good Earth State Park

One of my New Year’s Resolution…less time sulking about the state of the world, more time being productive. Now when I say “productive”, I don’t necessarily mean work! No, I’m thinking more about my free time, and instead of wasting it, spending it doing things I love. Of course that includes birding, but it also includes working on my massive, out of control website, which I’ve neglected lately.

One element of my website are “Hotspots” pages, detailed information on specific birding hotspots in South Dakota. It’s been a work in progress, as it takes quite a long time to make each one of the hotspot pages! Over the last week I have completed a new one, one that was LONG overdue…for Good Earth State Park just outside of Sioux Falls.

We live across the street from the Big Sioux Recreation Area, a state park of comparable size, that also borders the Big Sioux River and has extensive, forested riparian habitat. While I do bird there, in recent years it just can’t hold a candle compared to Good Earth State Park. Much of it for me is how the parks are managed. The Big Sioux Recreation Area has a BIG focus on camping and other heavy recreational use. As a result, they’ve really disappointed me in recent years by ripping out a lot of good bird habitat to make way for camping, frisbee golf, etc. I get it…you have to manage the parks for multiple uses, but overall in South Dakota, birders and birding are the LAST priorities for park management.

That’s what’s so great about Good Earth. It’s not managed for birding, but there’s no camping. That alone makes a huge difference, as it’s less busy and there’s much more natural vegetation. The big draw of the park for me is the variety of habitats, from upland forest, to gorgeous, well-vegetated grasslands with plenty of native plants, to riparian floodplain. The trail system is incredible as well, with several miles of very well maintained trails.

I’ll save the rest for the new “Birding Hotspot” page itself! I hope you find this useful as you consider Good Earth State Park for your next birding trip. Click below to access the page:

Good Earth State Park – Birding “Hotspot”

Killing Science, $1 at a time

Landsat Image - Garden City, Kansas

A Landsat image near Garden City, Kansas, depicting the view of irrigated agriculture using center pivots. Monitoring agricultural change and productivity is one of but many applications of Landsat data, providing scientific and economic benefits to the Nation. The latest move by the Department of Interior to potentially begin charging a fee for Landsat data would devastate Earth science activities around the globe. (click for a larger view).

Nature today published a story about a Department of Interior committee studying the possibility of charging fees for data from the Landsat satellite program, data that are currently available for free.  The first Landsat satellite was launched in 1972, with 6 additional satellites launched since then. The latest was Landsat 8, launched in 2013, while Landsat 9 is scheduled for launch in late 2020.  Landsat satellites have provided continuous Earth observations for the last 46 years (!!!!), an invaluable and unmatched record for recording changes on the Earth’s surface. The number of applications of Landsat data is astounding, including monitoring forestry activity (forest harvest and regrowth), agricultural productivity, monitoring urban sprawl, quantifying changes in surface water extent in response to flooding or drought, assessing the impacts of natural disasters, mapping geologic landforms, and a host of other uses. As the Nature article notes, a 2013 committee commissioned to assess the economic costs and benefits of the Landsat program found that while the program costs the US government approximately $80 million a year, economic benefits for the country are staggering…well over $2 billion per year.

Management of Landsat has changed over the years, but USGS and NASA are the two Federal agencies currently managing the program. Until 2008, the data came at a cost to the user...a cost that historically could be quite high.  A disastrous attempt to semi-privatize Landsat data distribution in the 1990s led to costs for each Landsat “scene” (an area approximately 115 x 115 miles) of up to $4,000!  While highly valuable data for a number of applications, the high cost was a major roadblock for usage of the data. In 2008, the USGS made the decision to begin distributing the data free of charge…and usage of Landsat data grew exponentially. Before the policy change, USGS distributed a mere ~50 scenes per day.  Once the data were made freely available, usage jumped more than 100-fold, with thousands of Landsat scenes downloaded per day.  Having freely available data from the world’s premiere long-term observation platform of the Earth’s surface has since transformed Earth science.  Applications once hindered by data costs were now free to tap into the entire Landsat database.

The Nature story notes that under the current administration, the committee is considering again re instituting a fee for access to Landsat. Given the other actions of Secretary of the Interior Ryan Zinke, EPA Administrator Scott Pruitt, and other administration officials with roles overseeing environmental science, it’s easy to speculate as to the real purpose of the committee.  DOI, EPA, NOAA, and other scientific agencies and programs in the Federal government have been targeted for draconian reductions by the Trump industry.  Elimination of environmental science and privatization of traditional government activities has been a major focus of this administration.  My own personal interpretation…this is a move to 1) curtail the vast array of environmental monitoring and analysis that’s occurred since Landsat data were made freely available, 2) bow to the will of industry lobbyists who wish to continue the push towards privatization of Earth observations and increase corporate profits, and 3) eventually extricate the US government from running the Landsat program and other similar Earth observation systems.

Any truly unbiased analysis of the Landsat program would label the 2008 move to freely available data as a smashing success, both in terms of economics and the scientific benefits. Returning to the 1990s and charging high fees for Landsat data access would result in an immediate, sharp decline in environmental and economic applications that use the data.  Given that the one overarching theme of the Trump administration is “corporate profit above all else”, it’s impossible to view this potential move with anything other than a highly cynical eye.

 

Meteors in your Gutter, Pollinating Crops with Drones, and more science news – Week of March 12, 2017

This week, let’s try something novel…science news, sans politics.  It seems that politicians in this country have decided we can live without science, so for one week, I’ll try a “news” post where science avoids politics.

Long-horned Bee - Melissodes

A Long-horned Bee, doing what bees do best…collecting nectar and in the process, distributing pollen. If one Japanese researcher has his way, we could soon be using drones to augment nature’s pollinators. A personal comment…let’s hope this never comes to pass.

Who Needs Honeybees when we have Drones? — A first…TWO drone-related stories in one week! While the story above about using drones to acoustically sample birds may seem practical, I admit I don’t see much of a future for this application!  Eijiro Miyako, a chemist in Tsukuba, Japan, was trying to make an electricity-conducting gel in 2007, an endeavor that wasn’t working. His concoction was stored, until 8 years later when he dropped the jar while cleaning out a drawer. Miyako certainly thinks differently than I do, because upon cleaning up the sticky substance, he wondered, “could this be used to pollinate plants”? The decline of honeybees and other pollinators is well-noted, something of potentially devastating consequences to not only natural ecosystems, but to our very survival, given the need to pollinate crops.  Miyako started working with methodologies to pollinate crops, starting out by coating ants with his sticky gel to see if their movements would attract and distribute pollen. It kind of worked, but didn’t seem practical, so he eventually started working with drones.  The drones have a fuzzy material that collects pollen and can redistribute it when the drone brushes up against another plant.  His eventually plan? Build a fleet of 100 or so drones, use GPS and artificial intelligence, and set them loose in a field to pollinate the crops. Well…I guess we all need dreamers, and given how science works, who knows what practical application may come of Miyako’s work?  But hey, how about instead of developing drone pollinators, we instead focus on preserving the natural pollinators we have now?

Norwegian Gutters Clogged with Meteors!! — Jon Larsen, a Norwegian jazz musician, has an interesting hobby.  He’s devoted much of his free time in recent years to looking through material in gutters, downspouts, and drains, searching for extraterrestrial visitors.  Tons of material from outer space enters Earth’s atmosphere every day, much of it microscopic. Larsen has searched through debris in urban settings in search of these microscopic visitors.  His passion has been published in the journal Geology, with a paper that discusses the identification of over 500 “large micrometeorites” from rooftops and other urban settings. Larsen has learned the typical characteristics of micrometeorites, stating “Once I knew what to look for, I found them everywhere”.  Next time you’re up on the roof, cleaning leaves out of those gutters, do it with a smile and a sense of wonder, because it’s extremely likely that you’re cleaning up cosmic debris along with those leaves.

Normalized Difference Vegetation Index - Great Britain

Normalized Difference Vegetation Index (NDVI) for Great Britain, showing relative “greenness” of vegetation at the time. Researchers are studying linkages between NDVI, tree ring width, and volcanic activity to see if vegetation is responding to pre-eruption conditions. Potentially, such changes could be used to help predict an eruption.

Predicting Volcano Eruptions from…the greenness of trees? — I believe this is a poorly written article, but the premise behind it is VERY cool for a scientist like myself who works with satellite imagery.  The title of the story is very poor and somewhat misleading, stating “Can tree rings predict volcanic eruptions”? The story focuses on the work of scientists at the Swiss Federal Institute for Forest, Snow, and Landscape Research. In 1973, scientists noted an anomaly on satellite images along Mount Etna’s flank, a streak of trees that were greener than normal.  With satellite imagery, we can measure a “Normalized Vegetation Difference Index”, a measure of live green vegetation.  NDVI measurements in 1973 satellite observations were high along a streak on the volcanos flank, and less than a year later, a flank eruption occurred right along that very streak.  These scientists hypothesized that measuring tree rings from 1973 would also show an anomaly, and thus the title of this story that tree rings could “predict volcanic eruptions”.  However, the actual results showed no difference in tree ring width during that time frame. Given the relationship between tree ring width and how “good” a year a tree has had, I can see why continued research is warranted to try to find relationships between increased NDVI greenness, and tree ring width, and see if other areas have experienced changes prior to a volcanic eruption.  As it is, there’s not much in this initial research that proves a strong linkage.

Spying on Birds with Drones — On-site surveys of birds is a time-intensive and potentially expensive endeavor if trying to systematically survey birds across broad regions. Researchers at Gettysburg College in Pennsylvania investigated the use of drones for conducting acoustical surveys of birds. They tried flying a drone and extracting acoustical information from a recorder on the drone, and found that the method was able to sample bird presence for about as large a region as a human observer performing a survey.  They have some kinks to work out, primarily related to the noise of the drone masking some of the low-frequency bird noises (think cooing of a Mourning Dove), but they believe technological innovation will soon make drones quieter and more efficient at sampling bird acoustics. I admit I do kind of roll my eyes when I hear people talking about trying to use drones for photography, and for science applications, because in many cases it seems like a stunt more than an actual practical application.  Gettysburg College may be proving me wrong, as this actually does sound like an interesting use of drone technology.

American Chestnut - Wild Survivor

One of the VERY few wild, mature American Chestnut trees left in the wild. Trees such as this may be resistant to blight, and are being used in efforts to develop a blight-resistant stock for eventual transplantation in the wild. Genetic modification is also being done to introduce Chestnut Blight resistant genes in tree stocks.

American Chestnut, Returning to a Forest Near You? — I often wonder what it would be like to travel back in time, to visit locations before they were touched by man. In the United States, the entire eastern half of the country was once dominated by forest land. While forest cutting started in earnest in the 1800s and even earlier in some locations, remaining deciduous forests by 1900 were still populated by 3 to 4 billion American Chestnut trees. It is estimated that one-quarter of trees in the Appalachians were American Chestnuts.  The American Chestnut was a prolific nut producer, with mast from the trees supporting deer, turkeys, bears, and other wildlife, including the now extinct Passenger Pigeon.  In 1904 a fungal blight was discovered, a disease that eventually wiped out nearly every wild American Chestnut. Asiatic Chestnut trees were imported into the country, but with them came an Asian bark fungus that was lethal to American Chestnuts. The disease spread rapidly, killing every American Chestnut tree in its path.  It is now estimated that fewer than 100 trees of any size are left in their former range. Root systems of surviving trees still send up shoots, but the blight infects the trees as they mature, resulting in practically no American Chestnut stems over 10-years old in the wild.  This story is focused on efforts to genetically modify the American Chestnut to include resistance to the blight. 30 years of research has resulted in the introduction of a gene from wheat that makes the trees able to withstand the blight. They hope to gain approval to publicly distribute the trees within 5 years.However, it will still be a long process to repopulate Eastern forests with American Chestnut. The researchers want to cross-pollinate the blight resistant trees with native wild tree stock. Half of the offspring will be blight resistant, and genetic diversity will be much improved over the current research tree stock.  We’re at the start of a VERY long process to restore the tree to the wild, but hopefully our great-great grandchildren will be able to enjoy the same Eastern forest trees that existed prior to 1900.

10 years until “Snowball Earth” — I admit my scientist side geeks out when I read a story like this, as it’s just so cool to think of the physical changes that have, can, and will again happen to our Earth.  Of course the absolutely catastrophic consequences for mankind put a bit of a damper on that excitement!  Harvard scientists have pinpointed the circumstances that led to “Snowball Earth”, a period about 717 million years ago where the Earth was covered in ice from pole-to-pole.  Models suggest that the climate destabilization that plunged the Earth into polar hell could have happened in a blink of an eye in geologic time. Massive volcanic eruptions back then could have ejected enough aerosols into the atmosphere in just a 10-year period to initiate the rapid freeze.  Don’t worry, it’s not a single volcanic eruption that’s capable of such a long-term change, but instead the kind of massive eruptions that mankind hasn’t experienced in our history. 717 million years ago, it was a string of volcanic eruptions across what’s now Canada and Greenland that set off the freeze.  As I said, from a scientific standpoint, fascinating to think what could happen, but it also points out the fragile balance of our climate system.  “Snowball Earth” happened because of runaway cooling and feedbacks that amplified and accelerated the cooling, primarily with increased ice increasing reflectance of solar radiation in a self-reinforcing feedback loop.  Right now we’re playing a game of “chicken” with our climate system, doing the exact opposite, and removing that ice in a self-reinforcing feedback loop that’s amplifying warming.

Snowy Bison

The Bison, invasive species that forever changed North America! Well, if we were around about 150,000 years ago, they would have been considered an invasive species, one that transformed grassland ecosystems of North America.

Bison Contributing to Mammoth Decline?  — OK, my chosen title here doesn’t reflect the purpose of this research, but after reading the story it did make me curious…did Bison contribute to the decline and eventual extinction of the Mammoth? The story used DNA analysis to establish that the ancestors of North American Bison first arrived between 130,000 and 190,000 years ago.  As the story notes, in this case, Bison were the invasive species, rapidly colonizing North America and forever changing the grassland ecosystems of the continent.  It does make me wonder…if not for the establishment of the Bison as a primary grazer in North America, would the Mammoth and other North American megafauna have been better positioned to withstand climate change and the establishment of man? Interesting story, and a story that shows that not all “invasive species” are those that are introduced by mankind.

Managing Diabetes with your Sweat — Especially as a family that deals with the consequences of Juvenile Diabetes, we’re quite familiar with the frequent finger prick to check glucose levels in blood. Researchers in South Korea have developed a prototype glucose sensing and insulin delivery device that looks like an arm cuff.  Instead of measuring blood glucose, it measures glucose in sweat. It’s not just these guys, there are also other researchers who are looking at measuring glucose levels in tears. There certainly have been many technological advances and devices for testing and treating diabetics, innovations that are certainly welcome! I just wish there were some real advances on actually treating the disease, and not just the symptoms.
 
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