Wednesday, August 14, 2019

SearchResearch (8/14/19): What's your favorite geo-mapping / geo-information tool?


You might have noticed... 

... lots of the SearchResearch Challenges involve finding other resources--like mapping sites--and then using them to help answer the Challenge-of-the-Week.  

The new Google Earth on the web (https://www.google.com/earth/) is a fantastic
geo-located information resource. 

An important set of things to know is WHAT resources are available... 

... and ... 

An important skill for any powerful SearchResearcher is the ability to FIND those sources.. and find new resources that you don't know about ahead of time.  

So this week's Challenge comes in two parts.  Both are a little meta, but together, I hope they teach a powerful lesson. 

1.  (knowledge)  What's your favorite geo-information resource?  It could be something we've already talked about (like Earth, Maps, Streetview, or Wikimapia), or you teach us all something about a resource that you use and enjoy.  What is it?  Why do you think it's great?  
2.  (skill)  Can you find a NEW geo-information (or geo-mapping, or geo-indexed anything!) resource?  What process did you follow to find it?  

In both cases, we're looking for Open-Access resources.  (I'll also take something that's really really inexpensive.)  

What do you know about?  What can you find?  

Be sure to let us know what you did to find your NEW favorite geo-resource!!  


Here's one example, an animated GIF I made from Google Earth (web) showing movement in Yosemite Valley.  




Search on!  

Thursday, August 8, 2019

Answer: Are there seals in Tahiti?

Okay... by now I'm almost back into
my Californian mindset... 
 


... but our Challenge from last week still remains.  Remember, I asked:  

While there, I saw lots of wildlife.  Such as this anemonefish I found on Raiatea, 

1.  Is it true there are no seals or sea lions in Tahiti?  If so why not?  (Or did I just miss them?)  

How would you do online research for a question like this?  Remember that doing an obvious query like: 

     [ seals OR "sea lions" in Tahiti ] 

is biasing the results towards ANYTHING that mentions seals or sea lions in Tahiti.  (If you do this query, you'll find a sad story about a little seal who showed up in Raivavae in August, 2016.  (Unfortunately, it was so far from home that it didn't survive.)  

You'll also find lots of off-topic results about yachts that are named "Seal" or "Sea Lion" or yachts that have porthole seals that need maintenance, or hotels in Tahiti named "Seal" + something.  But nothing useful.    

You will find a spurious stock video of seals supposedly swimming in Moorea (an islan near Tahiti).  It you look at that video closely, you'll see seaweed of a kind that clearly is NOT from Polynesia.  (I suspect the video was just mistakenly tagged with that location at some point by a non-diving cataloger.)  

I note that there's also a link to a book about The Quest and Occupation of Tahiti by Emissaries of Spain during the Years 1771 - 1776.  This text has a few seal sightings in Tahiti and nearby islands, but the text also makes it clear these were pretty rare.  Probably a bit like the unfortunate little seal on Raivavae--it was present, but not really intentionally, and certainly not happily.  

So, what WOULD be a better search strategy?  

Given that "seal" is a pretty generic term, perhaps we could find a synonym that's much more specific. The easiest way I know to do that is to check out the Wikipedia article on seals (or sea lions, or walruses...) where we learn that they're all members of the order Pinnipedia.  

Now, armed with that bit of information, we can do a search for: 

     [ pinnipeds Tahiti ] 

Naturally, this tends to give us books and scholarly articles about pinnipeds/seals, but that's okay, I'd like some authority in my reading on this topic.  

And while I found a few articles, the most interesting one was a book chapter in Pinnipeds and El NiƱo:  Responses to Environmental Stress.  The entire book is about pinnipeds in the Pacific, and although I read much of the book (and importantly, used "Find in this book" feature), I couldn't find ANY pinnipeds except on the far Eastern Pacific, and the lower latitudes, near New Zealand and Antarctica.  

That's kind a stumper.  Now what? Is there another way to frame this Challenge?  

I remember from other reading about birds and animals that the term "distribution" and/or "range" are often used to describe the locations where animals live.  SO... I tried these searches: 

     [ pinniped range ] 
     [ pinniped distribution ] 

This worked pretty well!  Checking Images.Google.com I found that the second query is much better (higher quality on-topic results) and quickly leads to this map.  


Figure 1 from the article Global Threats to Pinnipeds  Kovacs, et al.
MARINE MAMMAL SCIENCE, 28(2): 414–436 (April 2012)

As you can see, pinnipeds are primarily cold water residents, with high population densities around the poles.  Interestingly, the west coasts of North and South America are notable for their cold currents that skim along the shore.  There are a few other outlier seal populations in the Mediterranean and Caspian sea.  Generally speaking, the tropics are a seal-free zone!  (Note, however, that blue streak in the middle of the Northern Pacific--that's Hawai'i, and a bit of a special case.)  

The article mentions that: 

Pinnipeds do not conform to the generalization that marine mammals are concentrated in tropical and temperate regions (Schipper et al. 2008), although they do occurprincipally within continental shelf regions (Fig. 1). They are for the most part coldwater animals that occur in regions with high marine productivity. Upwelling areas(including those associated with sea-ice edges and coastal shelf inclines) and oceanfrontal areas are focal points for foraging for many pinniped species. Additionally,available data on species distributions of pinniped do not appear to conform to themarine mammal generality that suggests that range sizes are smaller toward the poles(Schipper et al. 2008). Many arctic and antarctic pinnipeds have large, circumpolarranges, while most tropical and midlatitude pinnipeds appear to have more restrictedranges... 


Generally speaking, with the single exception of monk seals in Hawai'i, seals and sea lions just don't live in tropical seas (unless there's a cold water current in the tropical latitudes).  

Fascinating.  

So while there are seals in Hawai'i (the now rare and endangered Monk seal, Neomonachus schauinslandi), they are the rather exceptional exception to the general rule that seals don't live in the tropics.  

Aside from the occasional strays who wander into Tahitian waters, there just aren't seals in the area!  


2.  (Extra credit)  On board our ship I found this device.  I'm not a big ship sailor, so I don't know what it is.  Can you figure out what this is, and what it's used for on board?  


To start this search, I did a search-by-image, but that didn't work well, even after I tried using Bing's interactive cropping tool.  I tried Google, I tried Bing, I tried Yandex... all to no avail.  Nothing worked.  It's just not a great Search-By-Image target image.  (Too round, too generic...)  


BUT.. remember that you can add search terms to the image AFTER you do the initial Search-By-Image.  So, I modified the image search on Google by adding in the terms


     [ ship line rope ]

To my delight, buried in the middle of this images I found something that looked a lot like what I was searching for... 


And when I opened up the image, I learned it was a winch.  

Then, by looking up what a winch was, learned there are two kinds of devices like this... it's  either a winch, or a capstan--both of which look very similar.  (The difference is that a winch is only used to tighten or loosen a line, while a capstan can lock the line in place.  You use a winch to raise/lower sails, but you can use a capstan to tie your boat to a mooring point.)   


===== 
Postscript (Added after Regular Reader Arthur Weiss commented that he found it using Bing Image Search):  

At Arthur Weiss wrote in the comments to the blog, you CAN find the winch by using Bing's impressive search-by-image tool.  (I've written about this before:  see "What's that logo?")  

When I tried it, I didn't have any luck, but with Arthur's find, I re-tried the Bing search, and voila, there it was.  

Here's what I did on Bing.  You can see how much I cropped it down, "just to the relevant bits."  Note the winch in the middle of the results on the right.  


By contrast, if I do the same search using Google's Search-By-Image (using exactly the same cropped image), Google strikes out!  Lesson learned:  Try multiple search engines!  

Using the same cropped image, Google's Search-By-Image returns largely irrelevant things.
The suggestion ("rotor") is odd. Almost none of these things pictured are rotors.  

Thanks, Arthur!  




Search Lessons 

1. If you're getting junk results, try reformulating with a less-common term.  We used "pinniped" which means "seals and related creatures, and that shift to a technical term eliminated all kinds of off-topic results.  

2.  Knowing domain specific terminology.   Once again, using the right search term--in this case, "distribution" and "range" to find specific kinds of results--was an important change to our search.  Sometimes you just have to know the language of the topic.  I picked up these specific terms from my earlier reading about birds and animals.  Turns out these terms work for seals as well.  

3. Modify a Search-By-Image by adding in additional terms that will provide context.  This is an incredibly useful thing to remember when you're searching for an ambiguous target.  In today's search, we added "ship" and "line" and "rope" and found what we were looking for.  (I added "ship" to find only things associated with ships, then I added "line" because that's a common nautical term for a kind of rope, and then finally "rope" to find images that might not use the word "line.")  That series of modifications (3 searches) made all the difference!  

Hope you found this Challenge interesting and fun!  I learned a few new things about pinnipeds while reading for this topic... and was once again reminded that there's a great value in knowing the specific terminology for an area.  Part of this is just the habit of reading widely, increasing your personal vocabulary.  

Note that having a rich vocabulary is more than just knowing the definition of a term, but also knowing what domain (that is, a topic area) it's used in.  Everyone knows the word "distribution," but you might not have thought about it as a way to describe the concept where-an-animal-lives.  Luckily, I've read enough of those bird identification books to have seen "distribution" used in that way.  

Keep reading!  

Search on! 




Thursday, August 1, 2019

Rethinking Langmuir Circulation lanes


A couple of weeks ago...
... I asked what I thought was a simple question about "lanes" of quiet water that one can see on bodies of water.  Here's that Challenge:  


2.  As we're sailing from place to place, it's not uncommon to see large patches of water without any ripples on the surface.  It's something you see nearly everywhere--it's a common effect on lakes, ponds, and oceans.  But what causes these ripple-free regions on the water?   (See below for an image that has a large Y-shaped blank area in the middle. What causes this?)  

I offered this image as an example of what I meant.  See those blank spots? 

And I found this other picture (see this Y-shaped quiet area in the left-center).

I tentatively identified them as lanes caused by Langmuir Circulation.  

BUT THEN, as I was driving past the mouth of the Gualala River (in Northern California;  it opens onto the Pacific) I saw THIS:  

Here's a closeup below.  Notice how the lines are VERY parallel, and run through the tree stump, and right onto the grassy shoreline at left.  This is pretty clearly caused by Langmuir Circulation cells in the water. And yes, the wind was blowing (fairly hard) exactly along the lines.  If you notice, there are lots of small waves on top of the cells.  That's NOT quite what I was looking for: I wanted to find the cause of those glassy patches.  

  
But as I stood there looking at them, they were NOT the same as the quiet / ripple-free regions I'd seen (as in the first two pictures above).  These are clearly Langmuir cells, but there are LOTS of tiny wavelets on top of the water.  Looks to me as though we're searching for another process than wind-induced long, linear cells.  
So... what's going on?  
I don't know.  The search continues!  
Let me know if you run across anything that's relevant to the "quiet water" effect.  

Still searching!