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East Side Field Trip April 14 – 15

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Hi Folks:

I’m organizing a field trip to the East Side to look for Sage Grouse and other sage nominate species. The trip will be from April 14 – 15. We will meet at the Snoqualmie Pass Traveller’s Rest @ 8:00 am on Saturday, 14 April. Spending the night in Grand Coulee.

The general outline is to try some new areas including Beezley Hills and Moses Coulee on Saturday. If time allows, we’ll head off to Wilson Creek, then overnight in Grand Coulee. Sunday will be early, since we must arrive at the Leahy lek site by sunrise. I scouted the lek on March 24th and saw 21 Sage Grouse, including 18 males. The only good thing about getting up that early is leaving plenty of time on Sunday to bird our way back. Possible destinations include the upper Moses Coulee, the Bridgeport area and Badger Mountain.

Please email me at rwiese@wamail.net if you’re interested.

Thank you,

Ryan Wiese

Gull Identification Trip with Charlie Wright and Ken Brown

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A group of 11 ABC birders joined Charlie Wright and Ken Brown on a gull study outing in south King and Pierce counties on what started as a very rainy Saturday, but ended up with some unexpected but much appreciated sunshine at the log booms in Tacoma.  Ken plan the trip to begin in Pierce County and move to King County in the afternoon but because of the heavy rain in Pierce County in the morning we instead went directly to the Gene Coulon  Memorial Beach Park on Lake Washington where we could bird from the cover of the cupola there.  As was the trend for the day we didn’t find large numbers of gulls but enjoyed careful study of what we did find.

For me one of the highlights of the day was having Charlie show us how to use the new iPhone and android app Bird’s Eye Birdlog NA. Using this app it’s relatively easy to log the time you start birding area enter the species and numbers of individuals seen and then submit the list thereby ending the time at the site directly to your E-bird database. For me I’m hopeful that this app will give me incentive to keep better records and lend my tiny support to this tremendous resource for birders.

At Coulon Park we didn’t have large numbers of gulls but got excellent views of all three age groups of Mew Gulls as well as five Glaucous-winged gulls and a Glaucous-winged by Western hybrid. The small number of gulls may have been in part due to the second cycle Bald eagle that flew in and roosted on a post right in front of us.

Our next stop was at the Foster golf links in King County near the Yellow Truck company lot and the BECU headquarters.  Although large numbers of goals are seen here at times we pretty much struck out seeing just one Mew Gull and a single Glaucous-winged Gull. From here we stopped at the Tukwila gull spot where our luck remained about the same. After struggling to find gulls in King County were decided to return to Pierce County and our first stop got us off to a better start at the McDonald’s near the tide flats. There we had a Western gull along with a few hybrids and a single Glaucous-winged gull.

Things were starting to look up as the rain was diminishing nicely and from there we spent the bulk of the day at the Gog-Li-Hi-Ti wetlands. Gulls were present in modest numbers but excellent variety. Charlie and Ken both noted that unlike midwinter when a nice flock of adult Thayer’s gulls is usually present the majority of the Thayer’s gulls we saw there were first cycle birds with a few second cycle birds mixed in and far less adults than is seen in midwinter. The stop was an excellent opportunity to study molt and a good number of most of the common gulls in various age groups. We added Herring gull and were all pretty much blown away that Charlie identified both of them in about a millisecond on-the-fly. We used Ken’s tried-and-true technique of teaching with Charlie leading the way starting on one edge of a ridgeline and moving through the individual birds and talking to us about their identification and usually aging the birds as well. I think all of us came away at least a little bit better at gull identification after this exercise.

Next we were off to the Port of Tacoma the end of Alexander street where from the parking lot we picked up our first Bonaparte’s gulls of the day fairly far out on the water, some of which were coming nicely into their alternate plumage. It was fun to see my first black headed gulls of the year and most of us saw our first Caspian Tern of the year too. We also got to study a first cycle Least sandpiper and got a good laugh at Ken’s reminder that it had three ages of feathers noted, it’s juvenile primaries were looking pretty worn. It  was mostly in its formative plumage with a few first alternate feathers noted on the mantle and back.  One more opportunity to study molt, of if you are Diane to stay away and cover your ears.

Last at the log booms on Marine view Drive we had sunshine.  As we marveled at  getting a break in the weather on the latter half of our day we also got great looks alternate plumage Brandt’s cormorants, added a variety of other water birds tour day list and tried for at a seventh species of full for the day but we the hoped-for California gull didn’t materialize.

All of us are grateful that to Charlie for bringing fresh energy and tremendous expertise to our study of gulls and of course to Ken for his continued tutelage and great trip-leading skills. I hopt to see you all of at the next ABC meeting.

MEETING/CLASS REPORT

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March 22, 2012: “Faye’s Feathers – A Search for Meaning in Feathers,” presented by member Faye McAdams Hands. A report on feathers — all aspects! You may be tested! Much of her info was gleaned from the new book, “Bird Feathers,” by Scott & McFarland, whom Faye and fellow Willette Carol Smith had a chance to meet and chat with. Book is available at Tahoma Audubon or Amazon  (http://www.amazon.com/Bird-Feathers-American-Species-Ornithology/dp/0811736180/ref=sr_1_3?s=books&ie=UTF8&qid=1332899516&sr=1-3).

 

FIELD TRIP REPORT

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March 3-4, 2012: SW BC! International birding trip led by Rolan Nelson & Faye McAdams Hands! Perfect weather and fabulous birds. The usual spots plus some new ones: Campbell River Valley Park (new!), Boundary Bay (Snowys!!), Reifel Refuge, etc etc! See April/May issue of the Tahoma Audubon newsletter, The Towhee, for details.

Live Well by Doing Good before the Next ABC Class

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The next ABC meeting is scheduled for 6:45 on Thursday, April 26, at the University Place Library.  That is also Dining Out for Life day, which benefits the Pierce County AIDS Foundation.  If members eat at one of the many designated restaurants before attending the meeting, 25% of the cost of food and non-alcoholic beverages will be donated to the AIDS Foundation.  To find a participating restaurant, check this website: http://www.diningoutforlife.com/tacoma/restaurants#

Thanks to Art Wang for this post.

Live well by doing good.  I try to live by that mantra when I can.  See you in April or at the next Gull trip on March 31.

 

 

 

 

 

 

 

 

 

 

 

2011 Spring Class #2- Molt

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Spring Class #2    5-3-2011

First what shorebirds can be found in spring and fall

SPECIES SPRING FALL
Black-bellied Plover Common Common
Am. Golden Plover Rare Fairly Common
Pacific Golden Plover Uncommon Fairly Common
Snowy Plover Local Available Local Available
Greater Yellowlegs Common Common
Lesser Yellowlegs Rare Common
Solitary Sandpiper Rare Uncommon
Willet Very Uncommon local Local, available
Wandering Tattler Uncommon Uncommon Early migrant
Spotted Sandpiper Common Common
Whimbrel Common Common
Long-billed Curlew Very uncommon Uncommon
Hudsonian Godwit Very rare Rare
Marbled Godwit Common Common
Bar-tailed Godwit Very Rare Rare
Ruddy Turnstone Common Uncommon
Black Turnstone Common Common
Surfbird Common Common
Rock Sandpiper Very Uncommon Uncommon
Red Knot Common Uncommon
Sanderling Common Common
Semi-palmated sandpiper Rare Uncommon
Western Sandpiper Common Common
Least Sandpiper Common Common
Baird’s Sandpiper Rare Uncommon
Pectoral Sandpiper Rare Uncommon
Sharp-tailed sandpiper Very rare Very uncommon
Dunlin Common Common
Stilt Sandpiper Very rare Uncommon
Buff-breasted sandpiper N/A Rare
Ruff  Very rare Uncommon
Short-billed sandpiper Common Common
Long-billed Dowicher Fairly common Common
Wilson’s Phalarope Rare Uncommon
Red-necked phalarope Uncommon Fairly common
Red Phalarope Rare Uncommon after storms

In spring in WA there are about 23 common shorebirds, few rare

In Fall in WA there are about 25-26 common to uncommon with about 10 more rare

Tails and Wings  from P 28 in D. Paulson’s first book.

Look that many birds which are Probers tend to copy in appearance Sentinals that they associate with.

Sanderling and Dunlin will fly together, both stripe tailed, bold wing patterns and similar size

Red knot and BBPL both conspicuous wing patterns and white rump, Black-bellied is a sentinel and Red knot a prober.

Note the 5 rock sandpipers can be IDed primarily on their tail patterns, Surfbird and Turnstones band tailed, Tattler plain tailed,  Rock Sandpiper stripe tailed.

Sentinels vs. probers.  See ABA article in 2007 by D. Paulson.

Flocking is social, depends on flight patterns and similar sizes.

Birds in tight coordination flocks need to be very similar in size.

A birds pattern says come fly with me, a social message

Surfbirds, Turnstones, Rock Sandpipers

Dunlin and Sanderlings

Curlews and Godwits

BBPL and Red Knot

Sentinels see the predator first, usually have their head up, give a loud call.  Plovers, Trigines Palaropes, Upland Sandpipers, Curlew

Probers keep their head down, more at risk depend on

Dunlin, Stilts, Dowivhers, Snipes, Peeps.

These are mutually beneficial  Sentinals keep an eye out and have loud calls, probers have large flocks, have softer calls, space less, have heads down.

Convergent evolution:  Curlew & sentinals, Yellowlegs, Phalaropes and Dunlin

In theory probers should increase awareness when alone, and have a higher predation when no sentinels around.

Topography:

Molt is mostly about the flight feathers, the wing and tail feathers.

Primaries are attached to the hand.

Secondaries attached to the ulna.

In theory to be a true tertial needs to be attached to the Humerus.

Primaries usually #10, numbered from inner to outer.  Usually shed from the inside out.

Secondaries vary in number, numbered from mid-wing inward.  14-38 depending on how  long the wing is in the species.  Usually shed from the outside in and from the inside tertial outward both at the same time.

Tail: Most birds have 12 tail feathers, inside R1 out to R6 on each side.  Usually shed from the inside out with some exceptions (like woodpeckers)

Greater coverts cover the secondaries, primary coverts cover the secondaries.  Median coverts cover the primary coverts.

Scapulars are important in that they are very noticible in standing birds.

Primary coverts usually shed with the primaries they cover.

Molt: 

Modified Humphrey-Parkes Classification System

2003 by Howell.

All You Ever Wanted to Know About Molt

But Were Afraid to Ask

Part II: Finding Order Amid the Chaos

by Steve N. G. Howell

Now all molts are names for the molt that is coming in, i.e. pre molts.  This is from an ABA article Oct

Molting is the regrowth of feathers.  That is all we are concerned about, the growth of a new feather generation, not at all about color, just the growth of the feather.

There are 4 basic strategies:

Simple Basic Strategy SBS  same plumage all year – not many, Albatrosses, some petrals, barn owl.

Wear their juvenile plumage ofor a whole year.  Ne complete molt per year in the fall.

Complex Basic Strategy  CBS   Towhee, Only difference is a formative plumage in the first year.

Simple Alternate Strategy  SAS  One different plumage in the spring, the alternate plumage.  Two molts per year, have a complete fall molt, and a usually incomplete alternate molt in the spring.

Complex Alternate Strategy CAS  Have an additional molt out of juvenile into formative molt, i.e. preformative molt, in the first year, then two a year (3 in the first year)

Birds have one complete molt every year as a general rule, large birds maybe every 2 years.

Other molts are either limited, partial or imcomplete.

What triggers molt?  Length of day, temperature, and suppression of hormonal function activation triggers a molt.

New feathers are in sheeths, and made out of keratin, i.e. pin feathers.

Plumage:  to describe the color of the birds we can use the term aspect.  So in Humphrey Parke we use phrases like adult plumage aspect APA,

Most birds hatched either naked (altrical) or downy (precocial)  The first true feathers are the juvenile feathers, i.e. the B1 feathers.  Most birds in the F1 plumage have an APA.  They retain a few juvenile feathers, so you can sometimes tell they are in formative plumage.

After the birds are adult you say that they have a definitive pre basic and definitive pre alternate molt.  DPB and DPA molt each year.

A few birds have two downy plumages, e.g. flamingos, penguins.  Some have a supplemental molt, i.e. one that is extra and does not fit in.  Possibly Marbled Godwit has an extra very limited molt where the red in the breast becomes brighter as they move north.  Usually after the alternate molt to improve their breeding success.

Some birds have more feathers in the winter than the summer, for warmth.  Big birds have more feathers than small birds.

Birds have to molt.  They cannot survive without molt, so it’s more important than breeding.  More important than migration.  Molt is a high energy cost process.  Most birds do not molt their flight feathers during migration.  Some like dowichers suspend molt during migration and resume at staging areas enroute.

Dark feathers wear the slowest, light feathers the fastest
Small birds generally separate molt from breeding.  Larger birds can molt during breeding, but not while laying eggs. Female hawks may start molt prior to laying eggs, suspend this to lay eggs, and then finish after eggs are hatched.  Males are smaller so wait to start until after the birds are off the nest and still finish on time because they are smaller.

Timing of molt may depend on the length of migration, others go to a staging location enroute on migration.  May depend on food supplies, other factors.

IN 1983 no body knew where black swifts winters, but they had never been seen molting in NA, and so we knew they had to winter in South America.  So by looking there they were found in S. America. Opposite with Cave Swallows, known to be in molt in NA, and finally found wintering in Mexico.

Molt sequence:  Flight feathers first P1à P6, then secondary molt starts both ways from the middle on out.

Color of feathers can change based on when the bird is born and when they molt.  Male House finches, CBS, if they molt Augà Oct in first year can be red, if molt in Julyà Nov can be partially red or yellow. If they molt after Nov they can be female aspect.  (pre Howell in Molt book)

Types of molt:

Complete all feathers

Incomplete:  all except but some flight featehrs

Partial:  Most body but no flight feathers

Limited: Some of the body but not all.

Molt Contrast:  Some of the coverts, some scapulars may be adult like and others juvenile like.  This contrast between new and old feathers is called molt contrast.  Can help with aging some species.

4 types of wing molt:

Standard sequential  P1àP10, Secondaries start about when P6 is molting, starting from the outside in and inside out.  Meet in the middle.   Eccentric sequential is a variant of this.

Synchronous wing molt:  simultaneous dropping of the wing feathers.  Typical of larger birds.  No flight.  Loons, greges, murres, waterfowl, puffins.  Dippers shed P1-6 synchrounously, then P7-10 seqentially.

Stepwise:  Old term is Stauffelmauser.  Long winged birds that weigh over 1 Kg.  Starts where the last molt left off and at P1.    Think of Golden Eagles.  Molt about from P1 à P6 or P7.  Second molt goes P1 and P7 or 8.  In third year may start at P1 P4 and P8.  Osprey has an accelerated stepwise molt.  Some are obligate.  Because of their size they have to do this.  Others are opportunistic stepwise molters, especially female large buteos.

Factors affecting molt.  Birds locked in by their genetic ancestry.  Food can affect molt.  Body size affects molt.  Migration strategy affects molt.  Most resident and short distance birds tend to be CBS.  Most long distance migrants tend to have an alternate strategy.  Habitat is important.  Birds deep in the forest tend to be CBS.  Woodpeckers, thrushes etc.  Edge birds tend to be CAS, in the sun more.

Birds that have the least amount of time not migrating molts the least, longer migrating molt the most.

Color: 

3 types: 

Pigmented Carotinoids and melanins. Melanins black, brown and rusty.  Synthesized by the bird directly. Provide strength.  Carotinoids provide bright colors, from the diet, needs to eat something in the diet and synthesize it, reds pinks, oranges, yellows.

Structural Blue and white, produced by interference with light rays.  Fine structures in the feather bend the light to produce the color.  Blue absorbs everything but the blue and reflects the blue.  Like Stellar’s jays, indigo buntings.  Keratin scatters light.  No pigment scatters light.  Irridescence varies with viewpoint and is due to fine structures in the feathers.  Fine structures on the gorget in Hummingbirds reflect the light.  This changes with the angle of view.  Cosmetic is the staining of feathers by the bird.  Like Sandhill Crane puts mud on the feathers.  Reddish blush on the gulls is dietary.  Staining on swans and geese is feeding in rust deposited water.  It is incidental.  Not intentionally applied, so not cosmetic.

 

 

2011 Spring Class Notes: Class #1

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4-26-11  Spring Class #1  Advanced Birding

Consider getting The Shorebird Guide by Obrien, Crosley, and Karlson.

Next week we will cover molt, the foundation of the class.

51st supplement to the AOU list – 4 new orders were added:

Tropic Birds only, moved to their own order.  Can look this all up on David Sibley’s website

Suliformes:  4 families, Frigates, boobies and gannets and anhingas and cormorants into suliformes and out of pelicaniformes.

Accipitorformes:  Vultures, Osprey, and All of the hawks are the 3 families.

Falconoformes:  remain in their own family.  3 sub families, forrest falcons, caracaras, and falcons.

Herons, bitterns, ibis, spoonbills moved into pellicanoformes with pelicans.

So there are 11 new families in 4 new orders.

Warbers:  6 warblers moved from vermovora to oriophillipses.  A brand new sub-family of warblers.  New genus. Leaves only 3 vermivores.

Pirangas moved into Cardinaline, so the tanagers of N America moved to this new order.  So tanagers more closely related to BH grosbeak

Winter wren split into Winter wren and Pacific Wren

Whip-poor will split into eastern and western.

Black scoter remains Black Scoter and is now split form the one in Europe which is now Common Scoter

Greater Shearwater changed to Great Shearwater.

GISS:   General Impression Size and Shape

Why look at this GISS approach to bird ID rather than just fieldmarks?  Simpler and more enjoyable.

Starting the class with shorebirds in order to be ready for the first fieldtrip to the coast primarily to study and see the spring shorebird migration.

Shorebirds:   87 species worldwide, 42 species annually in WA, 20 accidentals.

Shorebird year:  Start in the first of the calendar year.  Refer to the boxes of strategies of molt in the Howell book.  See the box like table.

In early calander year molt into alternate plumage.  Migrate in about March-April, some in alt plumage prior to leaving non-breeding grounds, and most of the birds we see in migration in incomplete alternate plumage are first or maybe second year birds.  Go to breeding grounds.  Our spring migration ends June 10th in WA.  June 10-20 you cannot tell of birds are moving N or S.  After June 20 most birds are moving south.  Usually females show up here first on the southward migration along with unsuccessful breeders, usually in worn plumage.  Then the males show up, with most of the adults through WA by mid to late August.  Juveniles start showing in late July-early August and are in Juvenile plumage.  Juvenile plumage is fresh and pristine.  Brand new 6 week old feathers.  Can still see juveniles until early November.  Spring migration is urgent, move through quickly.  Fall migration is more protracted.

Juveniles start in about Late Oct-Nov their B1 plumage.

GISS cont:

  1. Relative size is the most important aspect of GISS.  Small like a peep, medium like a dowicher, large like a Whimbrel.  The good thing about shorebirds is you can compare sizes to a known bird.

In a new flock of birds, first look for different sizes of birds.  Then lock onto one bird to identify for a size comparison.  If no other birds, try to compare the bird to an artifact for general size.

  1. Structure is the second most important thing in GISS, like the length of the legs, width and size of the head and bill, is the bird slim, fat, dumpy, attenuated, long neck or short neck, bill is very important, is it long like a curlew or short like a plover, where in between.  Bill color and leg color and bill shape are the most key field marks.
  2. Next is behavior.  How does it feed, visual hunter like a plover or probe like a sandpiper.  Does it pick, probe, or stitch.  Wild movement like a greater YL, or more slow and methodical like a lesser YL.  Flocking behavior helps.  Tight flock or spread out.  Size of the flock can help.  Loud or soft call.  Is it a sentinel or a prober.
  3. Flight behavior, fluttery near the water is Spotted SP, towering flight is Solitary sandpiper.

Least SP takes off at a more acute angle than a Western SP.

  1. General impression of Color patterns – dun colored, brown or black on the least, the gray or brown above and white belly allows them to blend in from above and minimize the shadow effect.  Called counter shading
  2. Finally is voice:  it can help clinch the ID.
  3. Details of the plumage is the last thing, and we’ll cover this in the third class.  It is often needed to confirm the ID.

Probability is very important.  Look for what is available.

Look at the silhouettes in the Howell book.

Black-bellied plover:  30 mm bill length, 200K in NA 240gm, fat and plump, primaries slightly past the tail, mud flats, beaches and plowed fields.

Am. Golden Plover: most come thru the central states in spring, so very rare in spring, more in fall.  150K in NA.  145gm.  Long wing projection, > ½ inch.  Long wings =Long migration.  Plowed fields, sparse vegetation, golf courses, salt marshes, almost always coastal in WA in spring.  23 mm bill

Pacific Golden Plover: 16K in AK, world wide 125K.  In WA we can see the birds from AK in the fall, mostly juveniles.  130gm.  Legs longer, wings shorter, so shorter wing projection, look bigger chested and “dumpier”   23 mm bill

Snowy Plover:  14 mm bill, all dark bill, dark legs, 16K – 21 K in NA.  In WA very few, maybe 65 individuals in WA last year.  Small, chunky, very light colored, live on the upper dry sand,

Semipalmated Plover: In WA almost every small plover is Semi-palmated. 150K, upland, beaches, fields, mudflats. Loose flocks.

Piping and Wilson’s  plovers, not here.

Killdeer:  common, easy.

Mountain Plover:  one seen in WA this year.  9K in the world

Greater Yellowlegs: 56 mm bill (avg) 100K but in WA we see far more greater YL, seen both fall and spring.  160 gm. Big belly, Adam’s apple, upturned bill, active feeder, can sythe but also run and grab food.  Flooded fields, marshes, tidal creeks, slightly shorter tail.

Lesser Yellowlegs: 36 mm bill.  500K, rare in W WA in spring, in fall in small groups.  80 gm.  More methodical, move through kicking at the surface, marshes, more protected areas, mud flats.  Slightly longer wing projection, goes past the tail a little more.

Solitary sandpiper: 30 mm bill, 25 K in US, 50 gm, compact, short wings, short legs and neck, move slowly on the edge of the water, ponds, creeks, fresh water marshes, spotted above, bob their head (not their tail).  Fly straight up, called towering.  Tend to hold their bill horizontally.

Willet:  62 mm bill, we have western willet, only in Tokeland and WIllipa bay, as with other larger sandpipers it often takes longer to mature, and some oversummer in their first year.  210 gm

Wandering Tattler:  33 mm slightly drooping pointed bill, attenuated, 110 gm, same wt as a dowicher.  Found on rocks, only seen in migration.  Plain wing, plain tail. 10K in world.  Horozontal stance, teeters head only, walks quickly, loose flocks.  Picks and probes.  The largest rock sandpiper.   Pointed bill.  Usually don’t flock with other rock birds.  When disturbed fly by themselves.  Tend not to fly by in a flock.  Very loud call.

Spotted Sandpiper:  40 gm, 150K, short legs an bill, shallow fluttery flight, bob their tail, horizontal stance with bobbing, in the south they are polyandrous, can lay up to four broods, in the south the female with lay the eggs, abandon them and leave them to the male.

Whimbrel:  Long bill, decurved, 87 mm bill, 390 gm, striped head, walk slowly, mud flats, grassy areas.

Long-billed Curlew:  480 gm, 160 mm bill, walk steadily picking and probing.

Hudsonian Godwits:  300 gm most in middle of the country, rare in fall, not in spring, 82 mm bill, 50K,

Marbled Godwits: increasing in WA, 1500-2000 in outer coast of WA, most in WA may be immature birds and many oversummer, 102 mm bill, molt very quickly and early, 140-200K, 370gm.  Abreviated eye stripe.

Bar-tailed godwit:  120K breed in AK.  340 gm, medium sized, supercillim increases behind the eye.  Fly non-stop from AK to Oceana, 6000 miles non-stop.

Ruddy Turnstone:  23 mm bill 235-267K, more common in WA in spring, less in fall.  110 gm. More of a generalist, will be seen on cobble beaches and other substrates

Black Turnstone:  60K, 120 gm, more exclusively on rocks.

Surfbird:  190 gm, (vs 110 gm for tattler)  plump, short plover like 24 mm bill, 10” long, second largest by length, 70-100K in world.

Rock Sandpiper:  small, 70gm.  Slightly decurved and to a point. Seenin migration and in early winter.  Very few in spring.  Later arriver in fall.  100-200K,  but one of the three species is not migratory, we have the tuscurim subspecies here.  Many stay to the N of us.

Discussion of bill length:  small bill < length of the head, medium bill = length fo the head, Long bill > length of the head.

Black Oystercatcher:  11K  need rocky substrate.

Black Necked Stilt:  E WA breeder.

Americal Avocet:  450K females have a longer and more curved bill.  Sentinals.

Upland Sandpipers:  possibly extirpated.

Red Knot:  36 mm bill, 400K in NA, but most in the eastern NA, 135 gm, plump, short legs, horizontal stance, sandy beaches and mud flats, very gregarious, rare in fall, more in spring, come through in numbers quickly, medium bill,

Sanderling: 26 mm bill, run in and out of the surf, 300K,

Semipalmated sandpiper: more in the fall, tubular stubby bill, 3.5M, 25 grams, 6 ¼ inches, slightly plumper looking, not as front heavy, walk steadily picking, aggressive toward other birds, 18 mm bill

Western Sandpiper:  long droopy bill, 25mm bill, 26 grams, droopy bill, roosting birds more upright, large flocks, likes mudflats  3.5-4M

Least sandpiper:  19 mm bill, 600K, 21 grams, smallest sandpiper in the world, crouches when feeding, picks more, walks steadily picking, higher on the sand or mud flats, small flocks, more loose flocks, more erratic flight on takeoff, steeper angle, short bill and crouching, so feed near their feet.

Baird’s sandpiper:  300K, mid Americas, seen juveniles in the fall,  38 grams, steep forehead, 23 mm fine tipped bill, very long wings often crossed, often seen in dry areas,

White-rumped sandpiper: on E coast, rare here.

Pectoral Sandpiper:  rare in spring, 30 mm bill, 73 grams, 8 ¾ inches, slightly decurved medium bill, small head, longer neck and head.  Primaries to the tail tip, salicornia, assoc. with buff breasted, upland areas.

Buff Breasted SP: fall bird,

Upland Sandpiper:  tail longer than the wings,

Sharp-tailed sandpiper:  again fall, 26 mm droopy bill, 8 ½ “, two tone bill, red cap, buffy chest

Dunlin:  38 mm bill, longer than the head, 1 ¼ M , 60 grams, sanderling sized, dun colored in winter, rapidly picks and probes, winters in good numbers, all large flocks in winter are dunlin primarily.

Stilt Sandpiper:  40 mm bill, droopy thick bill, 50-200K, rare in spring, more in fall, smaller than dowichers, walks steadily with bill down probing in the water, often belly deep, submerges head.  These birds walk as they probe steadily.

Buff-breasted sandpiper: 20 mm, 64 gm, less than annual in the fall.  Squarish small head, upright stance, pigeon like gate.

Ruff:  Ruffs and Reeves, Ruff size of GR YL, reeve size of LEYL.  Ruff 150 gm, short droopy bill, hunches when feeding, wanders continuously, rare in spring.

Short-billed dowichers:  60 mm, (vs 67mm in LB)  females longer bills, 320K, 110 gm, flatter backed in relaxed feeding pose, thicker at the base, subtle kink at the base, spotted at the side of the neck, large groups on salt water are mostly SB,  S=Short billed, salt water, spotted)

Long-billed dowicher:  Small groups on fresh water,

Wilson’s phalarope:  1.5M  60 gm, 9 ¼ inches, long needle like bill, mostly inland, rare on coast,

Red-necked phalarope:  35 grams, 7 ¾ “, compact, slim neck, inland, coastal and pelagic, striped back is key,

Red Phalarope: 1M in NA, 5M worldwide.  55 gm, 8 ½ inches, pelagic, on land after strong storm, heavy plover like bill.

 

Another Gull ID Trip: March 31, 2012 With Special Guest Affcionado Charlie Wright

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Ken and Ed will lead a Gull ID trip again on March 31.  Again let’s meet at 8 AM 
8:00am Key bank at hwy 99 and & 54th st, Fife, exit 137.  Special treat thiws time is that Charlie Wright is going to join us a our gull guru, and maybe even Ken can pick up a fewgull ID tips.  Don’t miss this one, it should be special.  Contact Ken kennethwbrown[at]hotmail[dot]com to sign up or with questions.

See Kauffman’s Gull ID section for study, or look back at Ken’s Gull Class notes on this site:

Gull Class Notes

More Gull Class Notes  consider reviewing your class handouts.  If you have lost them there is a link to a download you can reprint them on this post.

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Fall Class Hawk Notes

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These are the notes taken by Ed Pullen from Ken Brown’s TAS 2010-11-16 Fall Bird Class

Hawks:

Vultures: 
Turkey Vulture:  SBS, though not extensively studied.  Several years ago vultures were reclassified to be closer to storks, but Howell now thinks they will be moved again, though not clear to where.  6-8 years to get to full adult aspect. Fledge in 2-6 months, breed at about 6 years.  This means that they are growing juvenile feathers for a long time and they are strong so they can last a whole year.  IN fall a bird with all nicely grown flight feathers it is a juvenile, because all the other will be molting.  Accelerated step-wise molt. In PB 2 they molt all their flight feathers, and in the spring the molt 1-4 feathers.  So in the second year of life they molt 12-14 flight feathers. After that they molt all the feathers in the fall, i.e. the rest out to P10 and the P1-4 again.   Note the silvery flight feathers.

Osprey:  summer breeders, most leave by Oct.    CBS.  Stepwise molt.  Stepwise molt occurs in large birds that cannot molt all their flight feathers in one year.   Referred to as cycle and wave of flight feathers.  First stepwise molt at 5 months of age is P1-10.  Second wave starts at 15 months.  Third wave starts at 23-32  months P1-7  Then at  36 – 42 months is P8-P1.

White-tailed Kite:  first seen in WA 1975.  CBS.  Off and on since then. Prefer river valleys in SW WA.   Whitish looking, hover hunt, gull-like appearance.  Small bill.  Open pastures, small canyons, small valleys. Perch in trees.  Juveniles are orangish colored.

 Hawks- Eagles- Kites all in the same family, all CBS.  Falcons also CBS.

This means they all have a preformative molt but that this PF molt is usually limited, and at times absent.  In the more northern birds preformative molt is near the nesting grounds.  Some may protract and have this in the spring.  Southerly birds tend to have a more extensive preformative molt.  Examples are Goshawk, very limited and early.  WT Kite more extensive and extended.

The formative molt can be variable.  This means that there can be a big variation in the appearance of the young birds, because some have more preformative molt than others.

Hawks are morphologically, biochemically, and physically quite different from falcons.

Golden Eagle:  stepwise molt  Golden hackles, young birds have white patch on bases of primaries underwing an white at base of the tail underside.  Bulging secondaries, smaller headed less than half the tail length.  Golden hackles on back of the neck at all ages.

Bald Eagle:  stepwise molt.  Start to breed at 4-7 years, can take up to 7 years to have full adult aspect,  Fledge in 1-3 months.  As with most hawks females are larger.  Females often shed their flight feathers earlier, often before nesting, then suspend the molt until off the nest, then resume after off the eggs.  Male who is smaller can wait longer, and start molt after the eggs hatch and the female can start to help with hunting.  In young bald eagles the head size is over half the tail length.  Bald eagles have variable amount of white in the body, Young bald eagles have whitish coverts.  (golden eagle can have some white spots in the covert during molt, but usually not lines like young bald)   Bald Eagles usually hold their wings out straight, but can use a dihedral.  Back of the wing is a fairly straight line, less bulge in the secondaries than the golden eagles.  3-4000 in winter in W WA.  7-800 in summertime.  In E WA on lakes and rivers lots  of bald eagles.  Golden eagles more often in dryer forested areas.  More golden eagles in summer.

Northern Harrier:  Males pale gray, black emarginated feathers.  Females and young much outnumber males.  Course low over ground in marshes, but can soar high too.  Young birds have dark eyes, adults have yellow eyes.  Adult females have streaks below.  Young birds tend to be buffy on the neck and chest, as well as a band on the carpal.

Accipitors:  3 sizes:  SSHA- flicker size, COHA size of a crow, GOHA the size of a RTHA.

Sharp-shinned hawk:  note smaller head so the eye looks more centered,Young has yellow eye, adults have a red eye.  Somewhat squarish tail, sometimes notched.  Outer feathers of the tail nearly as long as the inner tail feathers. Note just a tiny white band on the tip of the tail.  (wider in Cooper’s)  SSHA looks more dirty bellied than COHA.  More coarse streaks, and lesser white, especially near the vent.  Remember the GISS.  3-4 quick choppy strokes and a glide.  VIewed from overhead the wing is pushed forward.

Cooper’s Hawk:  Eye more forward, broader white tipped tail, Adult with nice defined cap, sometimes a peak at the back of a flat head.  Soaring the forward wing is straight off the bird, in flight not as choppy, powerful and in flight looks like the whole wing flaps  If in doubt, and you cannot tell, especially in flight, it’s likely a sharp shinned hawk.  Tend to be more rural.  More Coopers nest here, in winter a lot more SSHA.

Northern Goshawk:  1-3 years to full adult aspect.  Young birds in plumage resemble sharp shinned hawks, more dingy on breast and belly.  Wing pattern is checkerboard look under side.  Wide tubular tail, almost as wide as the body.  Juvenile undertail has wavy underside.  Adults have nice eyeline, yellowish cere, barred below, mostly a bird of the edge habitit, more in E WA.  Pine forest at some elevation.  W WA more deep forest, sometimes at Skagit.

Red-shouldered Hawk:  first seen 1979 at Nisqually. More SW WA.  Pale crescent in the wings.  Smaller bird, small bill, red shoulder, banded tail.  Perch hunters.  Tend to hunt low like an accipitor.  Look in the understory.  Often seen on borders.

Broad-winged Hawk: many more recently.  Very small buteo.  Polymorphic, though light morph much more common.   Fine barring on the tail in young bird.  Whole wing can be bordered in black in the adult.  Perch hunters.  In WA most seen in the first week of Sept.

Swainson’s Hawk:  Summer birds  Note dark primaries light wing linings  Narrow pointed wings. Long distance migrants.  To Argentina.

Red-tailed Hawk:  Dark head, light chest, belly band.  Many morphs, 5-6 subspecies.  Also polymorphic.  So each subspecies has different morphs.  In WA we have 3 morphs in RTHA.  Black morph, Light Morph. Intermediate morph (rufous morph)  Look for the patagium.  This is pretty specific for RTHA.  Wings a bit shorter, often soars, usually takes 3-4 slow flaps and soars again, Tends to sit on the side of a tree, often 2/3 – 3/4 of the way up.  (vs. RLHA often on top of small tree)

Harlan’s Hawk:  (A race of Red-tailed) Dark morph more common.  Dark morph has near white tail,  Juvenile has silvery flight feathers, look for light tail, can be suffused with gray or rust.  Some have very dark body some white streaking on the breast.  (Dark form RT has red tail)  Juvenile difference is a problem.  Juvenile RT has darkish tail with fine banding.  Usually in Harlan’s juvenile the tail has a lighter base.  Underwing coverts in Harlan’s Juvenile tend to be checkered.    Harlan’s white morph look for very white tail.

Ferruginous Hawk:  rare in winter.  Lanky bird, long wings.  Dark morph is unusual.  Has light tail.  Longer wings.  Bright cere, rufous leggings, Note white base of primaries from above, very light from below, rufous “V” of the legs.   Short distance migrants.  Return early.  Mostly found in great plains.

Rough-legged Hawk:  primarily 2 morphs.  Dark and Light.  Young birds very whitish on back.  Usually a wide dark belly band.  Very small bill with bright yellow cere.  Long lanky wing compared to RTHA.  Hover hunt.  Look for black wrist mark.  Females more light headed.  5:1 ratio of light to dark morphs.  Most young and females in WA in winter.  Dark morph female has more white base of the undertail.  Male more banding on the base of the undertail.  Bright yellow legs, feet and bill.  Look for tail to near the tip of the primaries, in RTHA shorter wings.

Falcons:

Merlin:  3 subspecies, Suckleithat we commonly get (black) often lacks the eyebrow.  Taiga- usually an eyebrow, some banding on the tail.   Overall small, near kestrel size, but wings pump like pistons, strong and fast.

American Kestrel:  sexes look different.  Hover hunt, weaker fliers.

Gyrfalcon:  Large, RTHA size, two main morphs, gray and white with variation down to black.  Almost all of ours are gray in WA.  Adults have yellow ceres and dark eyes.  Juveniles tend to be brownish, with a bluish cere.  Slight moustache.  Short wings when sitting, fall well short of the tip of the tail.  Prairie falls 1 “ above the tip of the tail, Peregrine falls about to the tip of the tail.  Powerful flight, hunt by brute force.  Often fly close to the ground and fly down prey.  Comfortable sitting on the ground, sit on a high clump of dirt or mound.

Peregrine Falcon:  3 subspecies, ours are all mixed up now.  Stoop hunt.  Wings fall near the tip of the tail.  Wing tips seem to whip when they fly, making it look like the action is in the tip of the wing.

Prairie Falcon:  brownish bird. Wings fall well short of the tip of the tail.  Black axillars.  Tend to fly looking more mechanical with the whole wing moving.  Surprise hunters, surprise prey.  Not as much stooping.

 

 

 

 

 

Falcons have a different molt pattern.  Molt starts at about P4, moves in and out at the same time, so that P1 and P10 fall at about the same time.  Also starts at S5 and goes both ways.  At the same time S5 is shed the innermost tertial is shed, and moves outward.

 

 

 

Gyrfalcon:  mostly brown immature, and gray adults, White only recorded twice in WA, Adults have yellowish cyr, immature has bluish cyr, only some birds have an eye stripe, Open areas, very fast flyers, tend to fly low to the ground, fast shallow steady wing beat, seems to be centered in the primaries.  Use brute force and surprise to overpower prey, tend to hunt  grouse and partridge in E. WA.

 

Peregrine Falcon:  3 types, Pacific type, prairie type, and tundra type.   In tundra type look for white on forehead and larger white in cheek patch.  Flight is steady and fluid, looks like the whole wing is moving.  Recovered from DDT caused endangerment.  Often moderate height to very high.   Wings go to the tip of the tail