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Isa’s nature journal and musings.

How a collection of dead insect specimens is alive with activity

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There may not be a single live bee but the place is still abuzz.

 


An insect in an entomology collection may no longer be alive, but its presence, together with thousands of other deceased insects in institutions around the world, moves science forward.

The Academy of Natural Sciences, where I have worked for 6 years, houses approximately 4 million insect specimens and about 100,000 species. This is about 10% of the known insect species! The collection is managed by a group of curatorial staff and researchers and it is visited throughout the year by dozens of students and scientists from around the world.

 
The Academy of Natural Sciences Entomology Community (2017), the group includes a curator, collection manager, curatorial assistants, visiting scholars, visiting PhD students, undergraduate student interns, and volunteers. On either side of the grou…

The Academy of Natural Sciences Entomology Community (2017), the group includes a curator, collection manager, curatorial assistants, visiting scholars, visiting PhD students, undergraduate student interns, and volunteers. On either side of the group are cabinets that contain drawers upon drawers of insect research specimens.

 

The Collection

A leopard moth specimen two upward facing data labels and a barcode and unique identifying number, which is used for collection management. This specimen is about 100 years old, but it is in great shape.

A leopard moth specimen two upward facing data labels and a barcode and unique identifying number, which is used for collection management. This specimen is about 100 years old, but it is in great shape.

Insect specimens are preserved either in ethanol (if they are soft-bodied), on slides (if they are microscopic), in envelopes (if they are dragonflies), or pinned.

Since deceased, dried insects are brittle, the pin enables curatorial personnel and researchers to handle specimens without touching the insect itself, minimizing risk of damage. Labels with information about the specimen’s collection event are placed on the same pin as specimens.

In order for an insect to be research grade, it must be labeled with the date and location of the its collection event. With this data, scientists can keep track of changes in insect populations and learn about changes occurring on our earth.

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Open a cabinet to find full columns of drawers of pinned insects. These particular drawers contain large grasshoppers.

Open a cabinet to find full columns of drawers of pinned insects. These particular drawers contain large grasshoppers.

Dr. Erika Tucker, entomology collection manager at the University of Michigan, opens a cabinet to access insects within the compactor aisle.

Dr. Erika Tucker, entomology collection manager at the University of Michigan, opens a cabinet to access insects within the compactor aisle.

 

Insect drawers are typically kept in large cabinets that roll back and forth on a track. It is a compactor system that allows maximal use of the space.

At left you can see collection manager at the University of Michigan, Erika Tucker opening a cabinet to access insects.

The lines on the ground are tracks for the cabinets. In the bottom right corner, are the handles used to roll the cabinets back and forth on the tracks. In this way researchers can switch the aisle and access a different row of cabinets.

 
These insect specimens look very similar; Both have raptorial front legs for catching prey. However, they are not closely related. The mantisfly, in the foreground, is in the scientific order, Neuroptera. The praying mantis, in the background, is in…

These insect specimens look very similar; Both have raptorial front legs for catching prey. However, they are not closely related. The mantisfly, in the foreground, is in the scientific order, Neuroptera. The praying mantis, in the background, is in the scientific order, Mantodea. They are as related to each other as grasshoppers are related to butterflies. Having insect specimens available to compare with each other is critical for solving entomological problems.

 
 

The Community

Dr. Jon Gelhaus, Curator of the collection, examines crane fly specimens. He is a world expert on this insect group and has amassed over 10,000 crane flies at the Academy of Natural Sciences.

Dr. Jon Gelhaus, Curator of the collection, examines crane fly specimens. He is a world expert on this insect group and has amassed over 10,000 crane flies at the Academy of Natural Sciences.


Volunteer, Anwar Abdul-Qawi, uses the collection as a reference to help identify a ladybug.

Volunteer, Anwar Abdul-Qawi, uses the collection as a reference to help identify a ladybug.

Once Abdul-Qawi identifies his ladybug, he adds a label with the species name and his own name. He identified this ladybug as the Seven-spotted Lady Beetle (Coccinella septempunctata).

Once Abdul-Qawi identifies his ladybug, he adds a label with the species name and his own name. He identified this ladybug as the Seven-spotted Lady Beetle (Coccinella septempunctata).

Drexel University graduate student, Meghan Barrett examines bee mandibles as part of a collective effort across bee researchers and collections to see if bees might be left or right jawed.

Drexel University graduate student, Meghan Barrett examines bee mandibles as part of a collective effort across bee researchers and collections to see if bees might be left or right jawed.

A visiting post-doc researcher from Pennsylvania State University, Dr. Li Tian visit the Academy of Natural Sciences of Drexel University’s Entomology Collection for a day to study specimens in the collection. He records the abdominal patterns of se…

A visiting post-doc researcher from Pennsylvania State University, Dr. Li Tian visit the Academy of Natural Sciences of Drexel University’s Entomology Collection for a day to study specimens in the collection. He records the abdominal patterns of several different bumblebee species.

A visiting post-doc researcher from Pennsylvania State University, Dr. Li Tian visit the Academy of Natural Sciences of Drexel University’s Entomology Collection for a day to study specimens in the collection. He records the abdominal patterns of se…

A visiting post-doc researcher from Pennsylvania State University, Dr. Li Tian visit the Academy of Natural Sciences of Drexel University’s Entomology Collection for a day to study specimens in the collection. He records the abdominal patterns of several different bumblebee species.

 
Not only do scientists use the collection. Artists draw inspiration from the endless forms. Artist, Mary Capaldi, draws specimens from the collection in her notebook.

Not only do scientists use the collection. Artists draw inspiration from the endless forms. Artist, Mary Capaldi, draws specimens from the collection in her notebook.

A student intern sorts moth specimens

A student intern sorts moth specimens

Drawers upon drawers of moth and butterfly specimens are laid out on a large table and collectively researchers, curatorial personnel, and students come together to sort the material.

Drawers upon drawers of moth and butterfly specimens are laid out on a large table and collectively researchers, curatorial personnel, and students come together to sort the material.

Curatorial staff in collections around the world are working on digitize their collections. Various tools and softwares are used for this process. The process typically involves transcribing label data and photographing specimens. Where in other nat…

Curatorial staff in collections around the world are working on digitize their collections. Various tools and softwares are used for this process. The process typically involves transcribing label data and photographing specimens. Where in other natural history collections, such as botany collections, a single photograph can capture specimen image and label the data, the vertical stacking of insect label data poses a unique challenge to the digitization process.

Curatorial staff are working to make digital versions of the physical insect specimens. This is a way to make the specimen data more accessible to science and big data projects. Digitization also helps with specimen management, making the process of fulfilling remote researcher’s requests for specimen data and images much faster.

PhD Student, Stephen C. Mason, Jr. brightens the office with his curated drawer of not insects, but jolly ranchers, which he offers to students and volunteers.

PhD Student, Stephen C. Mason, Jr. brightens the office with his curated drawer of not insects, but jolly ranchers, which he offers to students and volunteers.

 

Journey Through South Africa

Time to start posting on this blog!
I was in South Africa during the first half of May and so here is a peek into my South Africa nature encounters.
These photos are from a hike near Cape Town, South Africa. We hiked just east of Cape Town, in Stellenbosch. It was a lovely 5 hour circuit that we traveled in the afternoon on Mother’s Day, May 12th, 2019.

Stunning orange roach on the side of the trail in Stellenbosch, South Africa. Shout out to Ceci for finding it!

Stunning orange roach on the side of the trail in Stellenbosch, South Africa. Shout out to Ceci for finding it!

The orange cockroach looked so beautiful against beside the orange lichens (?) in Stellenbosch, South Africa!

The orange cockroach looked so beautiful against beside the orange lichens (?) in Stellenbosch, South Africa!

We also found this one between rocks to the side of the trail in Stellenbosch, South Africa. (in situ)

We also found this one between rocks to the side of the trail in Stellenbosch, South Africa. (in situ)

Such a captivating design on this plant skeleton.

Such a captivating design on this plant skeleton.

My hiking buddies on the trail in the Fynbos of Stellenbosch, South Africa.

My hiking buddies on the trail in the Fynbos of Stellenbosch, South Africa.

Mating grasshoppers on the side of the Stellenbosch trail. There were two other grasshopper couples right next to these two!

Mating grasshoppers on the side of the Stellenbosch trail. There were two other grasshopper couples right next to these two!

Stay tuned! I’ll post more soon. In the meantime, please share any questions or remarks in the comments below! :D

The Chemical Secret behind Rio Celeste's dazzling blue waters

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Here is where all the magic happens! At the confluence! In Costa Rica they call this spot the teñidero which translates to "dye" in english.

Here is where all the magic happens! At the confluence! In Costa Rica they call this spot the teñidero which translates to "dye" in english.

The sky-blue waters of Rio Celeste are completely natural.
How is this possible when the two contributing streams of water are completely clear?!

In 2012, Costa Rican scientists brought their sampling tools and chemistry kits to the site of the confluence to get to the bottom of this mystery. 

In the photograph on the right, you can see the confluence, where two streams come together and all the magic happens!!

From physiochemical testing both the tributaries and Rio Celeste, the researchers were able to determine key differences in the streams.

The one tributary, aptly named Quebrada Agria (or Sour Rag), is extremely acidic. The other tributary, Rio Buenavista, is neither acidic nor basic but contains aluminosilicate particles. When when the two waterways mix together at the confluence to turn into Rio Celeste, the acidity causes the particles to aggregate and the bright blue coloration appears! 

. . .

Lets get technical.
Río Buenavista (aluminosilicate particles = 184nm and pH = 6.8)
+ Quebrada Agria (pH = 3.1)
= Rio Celeste (aluminosilicate particles = 570nm because pH = 5)
= vibrant sky-blue color!

The blue color comes from the light scattering caused by the suspended mineral particles in the water. The optical phenomenon is the same as that which causes rainbows in the sky! It's called Mie Scattering.

Want more detail? Check out the peer-reviewed paper yourself: < http://dx.doi.org/10.1371/journal.pone.0075165 >

Paper Citation:
Erick Castellón, María Martínez, Sergio Madrigal-Carballo, María Laura Arias, William E. Vargas & Max Chavarría. Scattering of light by colloidal aluminosilicate particles produces the unusual sky-blue color of Rio-Celeste (Tenorio Volcano Complex, Costa Rica). PLos One (2013) 8 (9):e75165. < http://dx.doi.org/10.1371/journal.pone.0075165 >

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Slick Super Bloom

In light of World Poetry Day, I crafted a haiku about the white-lined sphinx (Hyles lineata). It is commonly found in the the south west of the United States of America.

 

The highway is slick;
Caterpillar guts spread thick.
Super Bloom Season


 

The White-lined sphinx (Hyles lineata)&nbsp;Photograph by Rumaan Malhotra, Posted with permission.

The White-lined sphinx (Hyles lineata
Photograph by Rumaan Malhotra, Posted with permission.


Behind the poem....

I received this photograph from Rumaan, who is currently in California. There is a wildflower super bloom occurring in the south west USA deserts this year and he said that he has been seeing these caterpillars everywhere!


Apparently, white-lined sphinx (Hyles lineata) caterpillars are sometimes so numerous that roads are closed because the caterpillar guts make the roads dangerously slippery! I bet that with the super bloom, this is one of those years...