The last few walks have been ... mostly bugs photographically and most of those were small. There have been some Turkeys poking around the woods but nothing of note ... other than it's always fun to see Turkeys.

Many of the water lilies are covered with these tiny flying insects. They obviously all hatched from eggs somewhere on the water lilies and emerged very quickly as one day they weren't there and the next day or so they were.
This is a closer view of what these insects look like. They appear to be at an early larva stage. Most apparently are dead as after two or three days they were still there and not moving. Somewhat surprisingly there are not other insects or birds eating them or if they are it certainly isn't a feast.
A Harvestman that caught and is consuming a relatively large ant. It may have found the ant already dead.

From: (Daddy Longlegs Revisited (Family Phalangiidae) | Field Station (uwm.edu) 'Daddy longlegs, a.k.a. Harvestman, (because the first species to be described were collected during harvest time, and because they are numerous then) are in the phylum Arthropoda (jointed legs), which consists of the classes Crustacea, Insecta and Arachnida and which, according to one author, accounts for about 80% of "living creatures." Don't let the eight legs and the spider-like appearance fool you; Daddy longlegs are not true spiders. Under the big umbrella of the class Arachnida, they belong in the order Opiliones, not with the true spiders in the order Araneae.

(From any of the references I found, the 'long legs' is obvious but when or why 'daddy' was attached to it isn't known.)

DLLs have had the same basic design for the past 400 million years, give or take. They are made up of two body segments, a cephalothorax (fused head and body) and an abdomen. The DLL's waist is broad, leading one author to say it resembles a rice krispies on legs (they can move pretty fast on those long legs). They hear via vibrations; their eyes are on short stalks that look like antennae (but arachnids don't have antennae); and their eyesight is poor. The senses of taste, touch and smell are incorporated in the longer, second pair of their four pairs of legs. Those that study Harvestmans are called Phalangiists (I wonder how many there are in the world).'

While this reference notes that the Harvestman does not have fangs and venom, observation is that they seem to feed on a variety of fairly large bugs and thus must have some means of attacking them.

The Harvestman has been associated with humans for a long time and is the subject of numbers of myths. For example: 'The county of Essex, England, had its own mythology surrounding harvestmen in the 1600s. According to this myth, each daddy longlegs possessed a scythe they would use to help local farmers harvest crops. Killing a "harvestman" was thus bad luck.'

Note the mite on this Harvestman's leg. Mites are parasites. This one is probably an immature, larval stage of the chigger mite. The chigger larvae are usually encountered in wooded areas, pastures and locations with tall grass and weeds. Chiggers feed on people and a variety of other animals such as snakes, birds and other small mammals. The mite's larvae penetrate skin and inject a secretion that breaks down and digests the skin cells. The mite larvae then suck up the digested material. Chigger larvae do not burrow into the skin or suck blood, as do some other species of parasitic mites.
The Crane Fly feeding. What it's feeding on isn't apparent. They don't have an actual 'mouth' but rather a liquid sponge system which provides a digestive liquid and then soaks up and transport the mix of the digestive liquid and the food material it has liquified.
The bees' tongue or proboscis works like a straw. The bee unrolls her tongue and dips it into a flower. Then she sucks up the nectar like we would drink from a straw. This one is feeding on the flower of a Black Cohosh.
A moth of one of the many types feeding on the nectar of a Black-eyed Susan flower. Its tongue or proboscis roles up into the fuzzy area in front of its eyes.
This is a Stink Bug probably feeding on something on the flower of a Black-eyed Susan. The 'tongue' from the front of its 'face' I assume is for feeding. I couldn't find much on the actual feeding process of a Stink Bug. From one source ... The insect injects a small amount of saliva into the fruit. The saliva is toxic to the cells of the fruit, so when the damaged fruit grows, it develops a scar.
This is one more of the camouflage caterpillars. This is it's 'mouth'. It's not apparent what it is actually doing.
Once again the beautiful emerald bee gathering pollen.

From: (What Bees Eat Pollination — Museum of the Earth) Pollen is the primary source of protein for bees. The protein content of pollen varies between 2.5% and 61%, depending on the plant species. For context, beef is approximately 26% protein!

The outermost coating on a pollen grain is soft and gooey. It sticks to the bodies of bees and other pollinators. The inner layers of the pollen grain are rigid and indigestible, protecting the nutrient-rich cytoplasm at the center. It's difficult for most animals to digest pollen, but bees have digestive enzymes that soften the pollen grain's rigid layers.

Bees evolved physical structures for harvesting pollen, including specialized brushes, combs, and rakes on their legs, abdomen, or mouthparts. Bees that prefer certain plants may have specially-shaped hairs on their bodies to pick up their favorite pollen. All non-parasitic bees developed mechanisms for carrying pollen from flowers back to their nests. Most bees transport pollen externally, but some bees consume the pollen and carry it in their crop or "honey stomach." Bees also produce a small electrostatic charge, which helps the pollen stick more securely to their bodies. 

This bug may not be feeding but it is really strange. I've seen the upper fiber part before but this is the first time I've seen the actual bug ... whatever it is.
A moth hiding under a leaf.
A small spider.
A tiny flying insect. It maybe a larva stage of something bigger.