Photo of the Week – December 26, 2014

The sun finally reappeared this week after what seemed like a month of absence.  I figured the best way to celebrate the end of dreariness was a couple of prairie hikes. I started by wandering along a creek at our Platte River Prairies to see what the resident beaver family had been up to.  Green sunfish slipped in and out of hiding places in the deep pools behind beaver dams, but little else was moving in the water.  Later, the sound of frantic chirping turned my head in time to watch a sharp-shinned hawk just miss its prey.  I couldn’t tell what kind of bird the hawk was chasing because it didn’t stop flying until it was out of sight.  I also caught a quick glimpse of a small mouse scooting through the thatch, spotted a perched eagle in a far off tree and flushed a small flock of mallards from an backwater wetland.  Not a bad way to spend an afternoon!

Later in the day, I stopped at our family prairie and roamed around until the sun went down.  As the sun dropped, its warm light illuminated the golden brown prairie and I managed to take a few photographs – something I’ve not done much of lately.  Here are a few of those photos.

A stiff goldenrod seed is stuck in the velcro-like hairs on the stem of a plant of the same species.  Helzer family prairie, Stockham, Nebraska.

A stiff goldenrod seed is stuck in the velcro-like hairs on the stem of a plant of the same species. Helzer family prairie, Stockham, Nebraska.

A Flodman's thistle (native species) stands out against the sky.

A Flodman’s thistle (native species) stands out against the sky.

The spiny beauty of Flodman's thistle seed heads.

The spiny beauty of Flodman’s thistle seed heads.

Tall dropseed (Sporobolus compositus) in golden prairie.

Tall dropseed (Sporobolus compositus) in golden light.

Stiff goldenrod

A stand of stiff goldenrod and mixed-grass prairie.

Happy Holidays, and best wishes for your New Year!

Photo of the Week – August 1, 2013

I first noticed the dead ants about a year ago, when James Trager was visiting our Platte River Prairies to help us see our grassland through the eyes of ants.  As we poked around the prairie together we kept seeing ants that were stuck and dying on the flowers of two native thistle species (Flodman’s thistle – Cirsium flodmanii and Wavyleaf thistle – Cirsium undulatum).

This ant got stuck on the lower portion of this Flodman's thistle flower and eventually died there.  Helzer family prairie - south of Aurora, Nebraska.

This ant got stuck on the lower portion of this Flodman’s thistle flower and eventually died there. Helzer family prairie – south of Aurora, Nebraska.

The ants didn’t appear to be getting stuck on the numerous spines on the flowers.  Instead, they were getting caught by the flypaper-like stickiness of the lower portion of the flower as they tried to crawl up toward the nectar and pollen at the top.  While ants are definitely the most common victim of these flower traps, I’ve also seen bees, flies, and a few crab spiders get caught as well.

A small bee is among the victims on this particular flower.  The red ant on the left was still alive when I photographed it.  Flodman's thistle at the Helzer family prairie.

A small bee is among the victims on this particular flower. The red ant on the left was still alive when I photographed it. Flodman’s thistle at the Helzer family prairie.

It’s interesting to speculate whether or not ant trapping is a strategic adaptation the flowers have developed over time or just an unlucky accident for the ants.  Ants are not particularly effective pollinators, so it would make sense for thistles to evolve a strategy that helps prevent ants from “stealing” their pollen and nectar.  Since more effective pollinators such as bees and flies come to the flowers by air, stickiness of the lower portions of flowers wouldn’t affect them much (the above photo notwithstanding).  Ants have to get to the flowers by crawling, so a sticky zone between the ground and the pollen might be a very effective strategy for ant prevention.

This thistle "caught" three ants.

This thistle “caught” three ants.

The stickiness of thistle flowers is an interesting counterpoint to the extrafloral nectar produced by plant species such as sunflowers.  Sunflowers seem to produce that substance to ATTRACT ants – presumably to help ward off potential herbivores.  Thistles may be producing a substance to keep ants AWAY.  Very interesting.

Or it could just be a complete accident – which is not a very good story, and sort of sad.

(I vote for the defense barrier theory.)