Pacific Northwest Crack



One of the first United States claims to the lands of the Pacific Northwest region came after Lewis. There are two species of rats found in the Pacific Northwest. Any crack greater than 1/2 inch leaves your home vulnerable to rats. 1 To be effective, rat-proofing must be thorough. Consider hiring a handyman if you don't have the time or interest to do it right. Northwest Center for Alternatives to Pesticides 501(c)3 Organization.

Pictorial Key to Mushrooms of the Pacific Northwest
by Danny Miller, education@psms.org
(version 2.4.0 - Please send feedback!)

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Pick a category: (if you promise you've read the instructions below). Art © Christine Roberts.

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Here is a guide to help you identify over 1,500 different mushrooms in the Pacific Northwest, an area that includes all of Washington, Oregon, Idaho and Southwestern British Columbia. About half of these mushrooms are also widely found across all of North America and in similar climates around the world (like Europe).

Thank you to the photographers who generously donated their images to this project and they retain copyright protection for their work. Do not reproduce any of these photographs! This would never have been possible without the photography of Steve Trudell, Noah Siegel, Michael Beug, Drew Parker, Paul Kroeger, Fred Rhoades, Buck McAdoo, Adolf and Oluna Ceska, Christine Roberts, Daniel Winkler, Bryce Kendrick, Kent Brothers, Joe Ammirati, Renée Lebeuf, Debbie Viess, Erin Page Blanchard, Matt Trappe, Jim Trappe, Jim Ginns, Ian Gibson, Christian Schwarz, Paul Hill, Tim Sage, Wendy Boes, John Davis, Marian Maxwell, Sava Krstic, Harvey and Pam Janszen, Janet Lindgren, Jen Strongin, Derek Hevel, Shannon Adams, Dimitar Bojantchev, Brandon Matheny, Jonathan L Frank, Alan Rockefeller, Steve Ness, Lauren Ré, Josh Powell and the libraries of Ben Woo, Kit Scates and Harley Barnhart, Joy Spurr, the USDA Forest Service, NAMA and the Field Museum of Natural History. Many thanks are also due to Ian Gibson for a thorough review of everything, without whom this could not have been nearly as good as it is.

Before attempting to use this key, you must read these instructions. Remember, the colour coding is for scarcity, and says nothing about edibility. Don't eat anything based on what you see here. Even edible mushrooms can kill you if picked in the wrong spot. Every mushroom makes some people sick! NO MUSHROOM IS SAFE FOR EVERYBODY!
To learn more about mushrooms and read all the collected information referred to in the various pictorial pages, you might enjoy this introduction to mycology.
For a discussion on which mushrooms are actually related to each other, in contrast to which ones look alike (how I have sometimes placed them in this key), read the page on taxonomy.

GILLED MUSHROOMS - Easily confused with veined mushrooms, like chanterelles. Remember, three important things you'll need to know are spore colour, how the gills attach to the stem and where you found it. If you're not sure of the spore colour (tiny, young or dry mushrooms can be especially difficult to spore print), you'll have to try all four colour categories.

'Secotioid' or 'Gastroid' gilled mushrooms are found on the gastroid page. They resemble a mutated mushroom that has partially closed up or 'trufflized', with primitive remnants of a cap, gills and stem still visible if you slice the mushroom in half. Don't bother to try and take a spore print. Most have lost their ability to drop spores.
Choose a spore colour:
Pale Spores - mostly white, sometimes pale pink, yellow or orange (but never mixed with brown). Very rarely red or green (Melanophyllum or Chlorophyllum).Pinkish Salmon Spores - usually darker than the pale pink spores of the pale spored group.
Warm Brown Spores - never very dark, but light to medium brown, with warm tones like yellow or orange mixed in - or just plain brown! Milk chocolate, but not dark chocolate. All with attached gills.
Cold, Dark Spores - cold, dark colours like dark chocolate, grey or black, often with a tinge of purple.

- for yellow to orange spores, first try Russula or (if it bleeds), Lactarius. For pale pink, start with Rhodocollybia or Macrocystidia. For free gills, try Amanitaceae and Lepiota first. Otherwise, I'm sorry, but this is the most numerous and confusing group of mushrooms in this key. Keep reading.

Expert short-cuts:
RussulaLactariusWaxy CapAmanitaceae
LepiotaLaccariaGilled BoletesOddballs
MycenoidMarasmioidOmphalinoidCollybioid
ClitocyboidTricholomaOn Wood

Here are the most interesting and distinctiveclades of related pale spored mushrooms. While related mushrooms don't necessarily look alike (and vice versa), these groups are a pleasant exception. I often find that it helps to run down this list in my mind thinking 'Are you sure it couldn't be...' before considering the stature type groups that follow.

  • Russula - easily recognized stature (browse the photos to see what they have in common)
  • entirely white when young except cap cuticle usually coloured and stem sometimes flushed reddish.
  • brittle (they do not fray when broken and the stem can snap audibly like a piece of chalk, a quality shared only by Lactarius).
  • all parts may stain brown, red or black, and the gills may turn yellow to orange from the spores.
  • adnate to decurrent gills. Not hygrophanous. Never a partial veil. Found mostly on the ground.
  • Russula and Lactarius are not related to other gilled mushrooms. Microscopically, the spores are round with warts and ridges that turn black in iodine.

Russulales - Russula

  • Lactarius - if you break the gills of a fresh Lactarius, white or coloured milk will bleed out.
  • they are also brittle textured like the related Russula, so their stems can break like chalk.
  • adnate to decurrent gills. Not hygrophanous. Never a partial veil. Found mostly on the ground.
  • unfortunately more variable in stature than Russula, but you can learn to recognize one on sight with a certain sixth sense. Try here as a last resort for an old mushroom that has stopped milking. Focus on if the stem can be cleanly broken.

Russulales - Lactarius

  • Waxy Caps - gills are often thick and widely spaced and look like they are made of wax (often the whole mushroom does).
  • the caps are often viscid and brightly coloured; even the plain white or brown mushrooms are an interesting pastel shade.
  • This can be subtle and difficult to detect. You might need practice to recognize some of these.
  • gills never free, and often decurrent. Only occasionally hygrophanous. Partial veil unusual. Only occasionally on wood.
  • microscopically, the basidia are at least 5 times longer than the spores.
  • (most often confused with Laccaria which are always orange or purple with tough, fibrous stems, and the colourful Mycenas, which are not waxy and have much thinner, delicate stems).

Agaricales - Hygrophoroid (Hygrocybe (Gliophorus, Humidicutus, Gloioxanthomyces, Chromosera) Hygrophorus, Cuphophyllus, Chrysomphalina, Aphroditeola, Cantharocybe, Hodophilus), Tricholomatoid (Pseudoomphalina)

  • Amanitaceae - elegant stature, free gills (but unfortunately they don't usually look free, so this group can be difficult to recognize and will take practice).
  • may have a volva of some kind at the bottom of the stem (sac, rings or collar).
  • may have warts or patches on the cap that are easily removable, or just be surrounded by cottony fluff or a layer of slime when young. Lepiota scales are not removable. You may need to check that section too for mushrooms without scales.
  • Amanita is dry capped (and never hygrophanous), but the rare Limacella is usually completely slimy and difficult to recognize! With or without a partial veil. Found on the ground.

Amanitaceae (Amanita, Saproamanita, Limacella)

  • Lepiota s.l. - most obviously free gilled white spored mushrooms live here (since in Amanita it's not that obvious).
  • these either have free gills or are scaly (but usually both).
  • unlike Amanita, the scales are not easily removable. You may need to check that section too for those without scales.
  • always a partial veil, but sometimes disappearing. Always dry capped and not hygrophanous. Found on the ground.
  • a particularly beautiful group of mushrooms (including a small red/green spored oddball).
  • small mushrooms (<5cm) with notched gills and scaly caps and stems are probably here.
  • larger mushrooms with notched gills are probably a Tricholoma, except for some with shaggy stems.

Agaricaceae p.p. (Chlorophyllum, Lepiota, Leucoagaricus, Leucocoprinus, Cystolepiota, Cystoderma, Cystodermella, Floccularia, Leucopholiota, Melanophyllum, Squamanita)

  • Laccaria - almost like Waxy Caps with thick, wide spaced waxy gills, but with a very tough fibrous stem.
  • dry, scaly caps with the entire mushroom either purple or orange.
  • No partial veil. Found on the ground.

Hydnangiaceae (Laccaria)

  • Hygrophoropsis, a gilled bolete - perhaps the brightest orange gills of any mushroom.
  • dry cap that is not hygrophanous, strongly decurrent gills, no partial veil and orange colours (often with white or brown). Usually found on the ground.
  • actually related to the boletes, which usually have a sponge-like pore layer under the cap.
  • (often mistaken for a chanterelle, which has veins, not true gills. Also like Paralepista flaccida, whose gills are not as bright).

Boletales - Hygrophoropsis

Once you have eliminated these special groups (that you will eventually learn to recognize) things get a little more difficult, as the other major clades of related mushrooms are not quite as distinctive. Unfortunately, many different mushrooms evolved to look kind of the same. We will now sort the mushrooms by stature types (sorted by shape and size, not by actual related groups).

This is probably the most difficult section of the key! You will likely need to try more than one group to find your mushroom.

  • Oddball mushrooms - This section contains oyster mushrooms, which usually grow on wood typically having no stem or a stem that is stubby and eccentric (sticking out to one side). The gills may look odd, too.
  • Also found here are wood-inhabiting, mostly non-hygrophanous mushrooms with either serrated gill edges or tough fruitbodies. That may not seem odd to you, but their relationship to other mushrooms turns out to be very odd!
  • Also found here are mushrooms with poorly developed gills that mostly grow on moss.

Russulales - Auriscalpiaceae (Lentinellus), Polyporales/Gloeophyllales (Panus, Lentinus, Neolentinus, Trametes, Gloeophyllum), Hymenochaetales (Muscinupta), Pleurotoid? (Pleurotus, Hohenbuehelia), Marasmioid (Pleurotopsis, Cheimonophyllum, Marasmiellus), Hygrophoroid (Arrhenia p.p., Rimbachia, Pleurocybella, Phyllotopsis, Sarcomyxa), ??? (Schizophyllum, Resupinatus, Tectella, Panellus)

  • Mycenoid - small (usually <2.5cm but sometimes larger), fragile, often conical capped when young, with no partial veil.
  • stems never tough, wiry, nor coloured darker than the caps; they break easily. Usually with fairly closely spaced gills for such a small mushroom.
  • found on ground or wood. Sometimes colourful. Viscid or dry. Often but not always hygrophanous.Gills usually attached but separate from the stem easily.
  • gills may be arcuate decurrent, but caps won't be umbilicate (unlike Omphalinoid).
  • older specimens without the conical cap are very easily confused with Marasmioid or Collybioid mushrooms. Some Galerina and Psathyrella may be very similar but have dark spore prints.

Marasmioid (Atheniella, Hydropus, Mycopan, Phloeomana), ??? (Mycena, Hemimycena, Resinomycena, Roridomyces), Tricholomatoid? (Fayodia, Gamundia)

  • Marasmioid - usually small mushrooms (<2.5cm) but the most popular one being larger, with tough, cartilaginous, wiry or dark stems difficult to crush. A garlic or putrid odor might indicate this group (or Collybioid).
  • few or widely spaced gills (unlike some Mycenoid and Collybioid species, which they are easily confused with).
  • flatter shaped young cap than Mycena.
  • gills attached, found on the ground or on wood. Dry capped. No partial veil.

Marasmioid (Marasmius, Marasmiellus, Crinipellis, Mycetinis, Gymnopus)

  • Omphalinoid - small mushrooms (<2.5cm across and with a thin stem a few mm thick or less).
  • dry, depressed to umbilicate cap centre and often strongly decurrent gills. The cap edge is often uplifted.
  • found on the ground, moss or wood. No partial veil.
  • (Clitocyboid mushrooms are very similar, but usually larger (>2.5cm). Especially colourful, waxy species are Waxy Caps).

Hygrophoroid (Arrhenia p.p., Lichenomphalia, Aphroditeola), Tricholomatoid (Omphalina, Pseudoomphalina), Hymenochaetales (Rickenella, Loreleia, Contumyces), ??? (Xeromphalina, Heimiomyces)

  • Collybioid - small to medium sized mushrooms (1-10cm but occasionally 15cm or more) with convex to flat caps
  • mostly with adnexed (to adnate) gills, gills often more closely spaced than Marasmius.
  • on the ground, debris, cones or other mushrooms. Mushrooms normally growing on wood may appear to be coming from the ground, so if you can't find it here, check the wood inhabiting section too.
  • the cap is sometimes hygrophanous and the stems are sometimes tough orcartilaginous (never true of Tricholoma). Not viscid, no partial veil.
  • Marasmius is a small page of similar mushrooms, so if you don't find your mushroom here, try there. Some Mycenoid species are not very conical and very similar too. Decurrent gills are much more common on those pages than here.
  • mushrooms with adnate gills overlap with Clitocyboid - try the smaller ones (<10cm) here first and the larger ones there.

Marasmioid (Gymnopus, Rhodocollybia, Strobilurus), Tricholomatoid (Collybia, Dendrocollybia, Lyophyllum, Clitocybe p.p., Rugosomyces, Tephrocybe, Callistosporium, Omphaliaster, Asterophora, Pseudolaccaria, Pseudobaeospora), Pluteaceae? (Melanoleuca, Macrocystidia), ??? (Baeospora)

  • Clitocyboid - medium to large mushrooms (>2.5cm), caps not conical.
  • with decurrent (to adnate) gills, those with umbilicate caps are usually larger than the Omphalinoid group.
  • mushrooms with adnate gills overlap with Collybioid - try the smaller ones (<10cm) there first and the larger ones here.
  • found mostly on the ground. Mushrooms normally growing on wood may appear to be coming from the ground, so if you can't find it here, check the wood inhabiting section too.
  • rarely viscid. Rarely a partial veil (or two).

Hygrophoroid (Ampulloclitocybe, Cantharocybe, Cantharellula), Tricholomatoid (Clitocybe, Pseudoclitocybe, Infundibulicybe, Lepista, Leucopaxillus, Cleistocybe, Catathelasma), Marasmioid (Clitocybula), Tricholomatoid? (Gamundia, Myxomphalia), Boletales (Hygrophoropsis)

  • Tricholoma - medium to large mushrooms (2.5-15+cm) usually stockier than the former categories.
  • fleshy (not rubbery) stem, non-hygrophanouscap that is sometimes scaly, usually notched gills and found on the ground.
  • dry or viscid. Partial veil or not. Easily confused with some Collybioid mushrooms.
  • (mushrooms <5cm with a scaly/shaggy stem, or >5cm with a shaggy stem may be on the Lepiota page).

Tricholomatoid - Tricholoma

  • Wood Inhabiting - small to large, meeting the criteria for either Collybioid or Clitocyboid, caps usually >2.5cm, but growing on wood. Other stature types with wood inhabiting mushrooms have them included on their page. The wood may be buried in the ground, so try this category if you can't find your terrestrial mushroom elsewhere. Many things sometimes grow on wood, so you may have to check the Collybioid and Clitocyboid pages too.
  • gills never free. Partial veil or viscid cap only for Armillaria.
  • (Tough mushrooms and those with serrated gill edges are oddballs. This can be subtle, so try that page for anything >2.5cm and decurrent gills if you can't find it here).

Marasmioid (Megacollybia, Armillaria, Flammulina, Clitocybula, Collybia (Gymnopus)), Hygrophoroid (Tricholomopsis, Pseudoarmillariella), Tricholomatoid (Hypsizygus, Ossicaulis, Callistosporium, Pseudoclitocybe), ??? (Baeospora)


Be cautioned that Agaricusfree gills may be pink in youth before the dark chocolate spores mature, they will have a partial veil.

Expert links:EntolomataceaePluteaceae

  • Entolomataceae - Attached gills, usually on the ground, but occasionally on wood or other mushrooms.
  • other features often include dry caps and no partial veil.
  • a few oddball species with eccentric or missing stems may also be found in this group.
  • One of the most beautiful groups of mushrooms, the enchanting Leptonias, are included here.

(Entoloma s.l., Entocybe, Nolanea, Leptonia s.l., Alboleptonia, Paraeccilia, Inocephalus, Pouzarella, Trichopilus, Clitopilus, Rhodocybe, Claudopus), Pluteoid (Macrocystidia)

  • Pluteaceae - Free gills, usually on wood.
  • other features also include dry caps, no partial veil, and only occasionally a hygrophanous cap.
  • they often have a recognizable elegant stature, like Amanita, and some have a volva like Amanita too.

Pluteaceae (Pluteus, Volvopluteus), Hygrophoroid (Volvariella)


Expert links:OystersGilled BoletesCortinarius
GymnopilusOn GroundOn WoodLBMs

  • 'Oyster' mushrooms - on wood, without a stem, or with a small stubby eccentric stem.

Crepidotaceae p.p. (Crepidotus), Strophariaceae p.p. (Melanotus), Boletales (Tapinella)

  • Gilled Boletes - four distinctive mushrooms, including 2 of the 'oysters' found above, are related to the boletes.
  • 1. decurrent gills and a strongly inrolled cap margin, usually under birch.
  • 2. a large velvet stemmed 'oyster' with an off centre stem, on wood.
  • 3. a stemless 'oyster' on wood with wavy gills
  • 4. like a bolete with bright yellow gills and possibly staining blue, on the ground.
  • in common: dry caps, no partial veil. Admittedly, other mushrooms share all these traits, but examine and eliminate this group before spending time in the next categories.

Boletales - (Paxillus, Tapinella, Phylloporus)

  • Cortinarius - often with rusty orange-brown spores, growing on the ground.
  • the partial veil is often a cortina (cob-web like and rarely elastic) instead of a flap of skin (with one important exception you need to learn) although other brown and dark spored genera may also have cortinas.
  • small to large, dry or viscid capped.
  • when the spores are ordinary brown, they could be mistaken for the 'Medium/Large terrestrial' category, below. The smallest ones could also be mistaken for 'LBMs', also below.

Cortinariaceae (Cortinarius)

  • Gymnopilus - rusty orange-brown spores, found on wood, bitter tasting.
  • small to large usually orange-brown fruitbodies, dry capped. With or without a partial veil.

Hymenogastraceae p.p.? (Gymnopilus)

  • Medium to Large Terrestrial - (>2.5cm), found on ground (or wood chips) that is not burnt. Regular brown spores.
  • with veil (cortinate or fleshy) or not, cap viscid or not, scaly or not.
  • some dry capped species may be found on wood. The smaller ones overlap in size with the 'LBMs', below. Some Cortinarius, above, have spores that are ordinary brown, and might be confused with this group.

Inocybaceae p.p. (Inocybe), Strophariaceae p.p. (Agrocybe), Hymenogastraceae p.p. (Hebeloma, Meottomyces, Phaeocollybia), Agaricaceae p.p. (Phaeolepiota), Cortinariaceae (Cortinarius)

  • Medium to Large Wood-inhabiting (Pholiota s.l.) - medium size (>2.5cm) on wood or burned ground, rarely wood chips.
  • mostly yellow-brown mushrooms with 'regular' brown spores, caps often viscid and scaly, occasionally hygrophanous.
  • partial veil that often disappears.
  • the smaller ones overlap in size with 'LBMs', below. Some mushrooms in terrestrial genera may be found on wood, but they usually have dry caps.

Strophariaceae p.p. (Pholiota, Kuehneromyces, Pachylepyrium, Hemipholiota) Hymenogastraceae p.p. (Flammula, Hemistropharia?)

Pacific Northwest Craftsman Home Plans

  • LBMs - the smallest brown spored mushrooms (mostly <2.5cm but some are larger), containing the genera most known for small and delicate fruit bodies.
  • if it doesn't fit into a previous category try here - most features are quite variable. Found on the ground or on wood, cap viscid or dry, hygrophanous or not, gills free to decurrent.
  • the larger ones overlap in size with the previous two groups, which may have small mushrooms but typically have stockier stems or larger relatives. But do check the other appropriate page (terrestrial or on wood) as well.

Hymenogastraceae p.p. (Galerina?, Alnicola), Crepidotaceae s.l. p.p. (Tubaria, Phaeomarasmius, Simocybe, Flammulaster), Bolbitiaceae p.p. (Conocybe, Bolbitius), Strophariaceae p.p. (Deconica (Melanotus))


Expert links:Gilled BoletesAgaricusInky Caps
PsathyrellaPanaeolusStrophariaceae

  • Gilled Boletes - separated from the others by being strongly decurrent and secondarily, either looking like a tent spike or being slimy and often having a yellow stem base.
  • found on the ground.

Boletales (Gomphidius, Chroogomphus)

  • Agaricus- free gills, dark chocolate spores (but pink gills can fool you), often with a ring on the stem.
  • dry caps, often large or at least stocky, found on the ground either in forests or in grass.
  • most look like a button mushroom or Portobello, because those popular store bought mushrooms are in fact one of these.

Agaricaceae p.p. (Agaricus)

  • Inky Caps - Black spores, cap sometimes umbrella shaped when young (at least as tall as they are wide).
  • caps often but not always turning to ink before they can rot, sometimes within hours.
  • often strongly striate, sometimes only this separates them from Psathyrella, next.
  • On wood, ground, grass or dung, often very fragile with white stems.
  • not hygrophanous, dry caps, attached gills usually crowded together, sometimes seceding or breaking away to look free.

Psathyrellaceae p.p. (Coprinellus, Coprinopsis, Parasola) Agaricaceae p.p. (Coprinus)

  • Psathyrella/Panaeolus - black or very dark spores, cap not turning to ink and less striate.
  • often very fragile and white stemmed.
  • dry, somewhat hygrophanous caps, attached gills. Found on wood, ground, grass or dung.

Psathyrellaceae p.p. (Psathyrella s.l., Lacrymaria), Panaeolinae (Panaeolus)

  • Strophariaceae s.l. p.p. - attached gills (often adnate), purple-black to purple-brown spores.
  • not very fragile, dry or viscid caps, partial veil or not, found on wood or on the ground.

Strophariaceae p.p. (Stropharia, Protostropharia, Leratiomyces, Hypholoma, Bogbodia, Phaeonematoloma, Psilocybe, Deconica), Hymenogastraceae? (Hemistropharia), Psathyrellaceae? (Mythicomyces, Stagnicola)


NON-GILLED MUSHROOMS

The Basidiomycota phyla groups are grouped for convenience by shape and size, and do not necessarily represent related groups of mushrooms. The Ascomycota phyla groups roughly represent different classes (or sections of a class) that are related to each other.

  • Boletes - These mushrooms have a cap and stem like gilled mushrooms, but sponge-like pores underneath the cap.
  • they are usually soft enough to chew, and the pores can be separated from the cap easily, unlike in the polypores.
  • dry or viscid, partial veil or not. Found mostly on the ground.
'Secotioid' or 'Gastroid' boletes are found on the gastroid page. They resemble a mutated mushroom that has partially closed up or 'trufflized', with primitive remnants of a cap, pores and stem still visible if you slice the mushroom in half.

Boletales (Boletus, Butyriboletus, Caloboletus, Hemileccinum, Aureoboletus, Buchwaldoboletus, Neoboletus, Suillellus, Rubroboletus, Leccinum, Suillus, Gyroporus, Xerocomus, Xerocomellus, Chalciporus, Porphyrellus, Hortiboletus, Pulchroboletus)

  • - often hard or tough mushrooms that you wouldn't want to chew on.
  • usually with a sponge-like pore surface, occasionally under a cap from a stemmed mushroom growing from the ground, but most often attached to wood, usually without a stem and sometimes without a cap (just pores lying flat on wood).
  • the pores cannot be easily removed from the rest of the mushroom unlike the boletes (if there is a rest of the mushroom).
  • some stemless species on wood have odd shaped pores elongated like gills or maze-like or sometimes even teeth.
  • A toothed mushroom is a cluster of spines or individual teeth, not growing flat on wood with teeth on its surface. Crusts have at most a wrinkled surface or teeth at most 3mm tall.

Polyporales (Gloeophyllales), Hymenochaetales, Agaricales, Russulales, Thelephorales

  • - these simply grow flat on wood (or occasionally stems or leaves) as a resupinate crust possibly with a primitive cap that bends away from the wood.
  • with either no relief at all, a wrinkled surface or small teeth (<3mm) embedded in the surface, but never quite as developed as true polypores.
  • not covered in pimples (look carefully!), nor growing on mushrooms or insects or wheat (those are covered next).
  • rubbery blobs on wood that are not brittle are jellies.
  • smooth-ish whitish crusts are probably the most difficult of all the groups to identify.

Polyporales (Gloeophyllales), Hymenochaetales, Agaricales, Boletales, Russulales, Gomphales, Thelephorales, Atheliales, Corticiales, etc.

  • Crusts (Ascomycota) - usually a hard crust or a fuzzy mold covered in pimples (very small, best seen with a hand lens), because the spores only grow in clusters inside each pimple, but nowhere else.
  • usually growing on wood, other mushrooms or even insects! If it's not growing on wood, try here, even if you can't see the pimples.

Sordariomycetes, Dothideomycetes

  • Toothed - with teeth or spines underneath the cap, but sometimes they are just a mass of spines without a cap or stem.
  • they hang down like icicles, whereas clubs grow upwards.
  • Clusters of spines or individual teeth growing out of wood that are not jelly-like belong here. Tooth-like pores or bumps growing out of a flat surface growing on wood belong in crusts.

Cantharellales (Hydnum, Sistotrema), Thelephorales (Hydnellum, Bankera, Sarcodon, Phellodon), Russulales (Echinodontium, Auriscalpium, Hericium), Agaricales (Mucronella), Auriculariales (Pseudohydnum)

  • Veined - Chanterelles and similar looking mushrooms, these are often mistaken for regular cap and stemgilled mushrooms, but the 'gills' are blunter and thicker, more like speed bumps than blades and usually not as deep.
  • sometimes the undersurface of the cap is almost completely smooth. Found on the ground.
  • stemless veined surfaces growing on wood are crusts. Tiny smooth or veined mushrooms growing on moss are duplicated here and in the oddballs.

Cantharellales (Cantharellus, Craterellus), Gomphales (Gomphus, Turbinellus), Thelephorales (Polyozellus)

  • Bird's Nests - You'll recognize most of these on sight, because they really do often look like little bird's nests filled with one or more 'eggs'. After the eggs have splashed out, they may resemble other cups!
  • growing on wood, debris, soil or dung.
  • their identity may be hidden by the nest being covered by a lid when young, and sometimes they are just a tiny cushion, not recognizable until you poke them open and find one or more 'eggs' inside.

Agaricaceae p.p. (Nidula, Crucibulum, Cyathus, Nidularia) Geastrales (Sphaerobolus)

  • Clubs (Basidiomycota) - these mushrooms have a regular brittle mushroom texture but are simple club-shaped cylinders (or very occasionally branched) growing up from the ground or pieces of wood.
  • they are usually uniformly shaped and colourful (not black and white).
  • they do not have any part that can be clearly differentiated as the 'head' (although they may thicken towards the top or experience a colour change), unless they are very slender (<1mm). Nor are they covered in pimples. (These exceptions are covered next).
  • (if they are short and small on wood and have the texture of rubber they might be a jelly, or if they are small and grow densely forming a flat covering on wood they might be a crust. The teeth of toothed mushrooms resemble clubs but they hang down like icicles).

Agaricales (Clavaria, Mucronella, Clavulinopsis, Typhula, Macrotyphula, Pterula), Hymenochaetales? (Alloclavaria), Russulales (Clavicorona), Cantharellales (Multiclavula), Gomphales (Clavariadelphus), Dacrymycetes-Dacrymycetales (Calocera)

  • Clubs - Stinkhorns (Basidiomycota) - either club shaped or elaborately shaped, hatching out of 'eggs' and getting their name from the stinky slime they are coated in that attracts flies to spread their spores.
  • rare and interesting, found on and under ground.
  • Some morels and relatives look similar, but do not hatch out of 'eggs'.

Phallales (Phallus, Mutinus, Dictyophora, Lysurus, Clathrus, Pseudocolus)

  • Clubs - Earth Tongues (Ascomycota) - usually have a differentiated head of some sort (at least a little bit more than just a colour change or a thickening) and are not very slender (>1mm), and are not covered in pimples (those are next).
  • the head is not a cup or disc shape (those are found under Cups), but convex, rounded or flattened vertically and not usually as complex as a morel or false morel.

Leotiomycetes p.p., Geoglossomycetes, Eurotiomycetes p.p. Neolectomycetes. Also: Basidiomycota p.p., Zygomycota p.p.

  • Clubs - Flasks (Ascomycota) - usually covered in pimples (very small, best seen with a hand lens) but one common species is not, but is black and white with occasional branches.
  • they grow on wood, other mushrooms or even insects!

Sordariomycetes

  • Corals - More complicated shapes than the club mushrooms, sometimes highly branched and looking more like sea coral than a mushroom. (Very occasional branching might still be considered a club).
  • usually each branch is a club-like tube, but sometimes they are flattened, with no real texture to either side of the 'leaf'.
  • brittle (not rubbery, those are jellies) and usually found on the ground, but sometimes on wood.
  • (never found on other mushrooms or animals - those are flasks).

Agaricales (Clavulinopsis, Ramariopsis), Cantharellales (Clavulina, Craterellus), Gomphales (Lentaria, Ramaria), Auriculariales (Tremellodendropsis), Hymenochaetales (Cotylidia, Stereopsis), Thelephorales (Thelephora, Polyozellus), Polyporales (Sparassis), Russulales (Artomyces)

  • Jellies (Basidiomycota and Ascomycota) - these wiggle and are difficult to break, with a rubbery texture like jello.
  • most are blob shaped, but some are shaped like clubs or corals, or even have a cap and stem type form.
  • most grow on wood, but some come from the ground or grow on other mushrooms.

Basidiomycota - [Dacrymycetes-Dacrymycetales (Dacrymyces, Guepiniopsis, Ditiola, Heterotextus, Dacryopinax, Calocera), Tremellomycetes-Tremellales (Tremella, Phaeotremella, Syzygospora), Agaricomycetes-Auriculariales (Auricularia, Exidia, Myxarium, Pseudohydnum, Guepinia), Sebacinales (Sebacina, Craterocolla, Efibulobasidium), Polyporales (Phlebia)] Ascomycota - [Leotiomycetes p.p.]

  • Puffballs and Earthstars - these mushrooms are like little balls with the spores growing inside a closed shape, perhaps with an outler layer opening up like rays of a starfish, and rarely with a stem.
  • they grow above ground, and the inside usually starts out soft and white like a marshmallow, becoming dark and powdery in age.

Agaricales, Boletales, Geastrales

  • Truffles - (Basidiomycota, Ascomycota, etc.) - these mushrooms are like little balls with the spores growing inside a closed shape, usually partly or entirely below ground.
  • Basidiomycota, Glomeromycota and Zygomycota species are those that are not a uniform texture inside, or if they are, they are porous and spongy or gelatinous.
  • Ascomycota have uniform interiors that are either solid and marbled, empty, chambered or gooey.

Basidiomcota - Agaricales, Russulales, Boletales, Hysterangiales, Geastrales, Gomphales. Ascomycota - Pezizomycetes p.p., Eurotiomycetes p.p. Glomeromycota p.p. Zygomycota p.p.

  • Morels and False Morels - (Ascomycota) - a highly prized groups of mushrooms, the morels (as well as the false morels) have very interesting shapes, a kind of a 'brain or saddle on a stick' look about them with a complex well defined head.
  • (the earth tongues have a flattened or convex head not quite as complicated, the large cups with a stem have a cup for a head, and the similar stinkhorns hatch out of an 'egg').

Pezizomycetes p.p.

  • Large Cups (Ascomycota) - this category is for relatively brittle mushrooms with or without a stem that are shaped like cups or saucers (concave to flat) or sometimes convex cushions (if they are stemless).
  • wiggly, rubbery cups on wood are jellies. Tiny cups at first filled with what looks like one or more bird's eggs are bird's nests. (Old specimens will be missing the eggs)!
  • these may or may not have a stem. If there is a stem, the cap is not convex (those are found in the earth tongues).
  • almost every mushroom of this shape whose cup is >1cm in width is in this category, smaller ones are below.

Pezizomycetes p.p.

  • Small Operculate Cups (Ascomycota) and Basidiomycota - the description is the same as for the related large cups, but these are mostly <1cm in width.
  • they can be separated macroscopically from the very similar unrelated inoperculate cups below by the fact that they are rarely found on wood or plant debris; they are found on dung,burnt ground, burnt wood, moss or the ground.
  • tiny, hairy cups at first filled with one or more 'bird's eggs' are bird's nests. (Old specimens will be missing the eggs)!
  • if the cap is convex instead of concave or plane and there is a stem, see the earth tongues instead.
  • also included are the few small Basidiomycota on moss that more resemble cups than they do any of the other Basidiomycota categories.

Pezizomycetes p.p. Basidiomycota [Hymenochaetales - Cyphellostereum, Agaricales - Hygrophoroid (Arrhenia, Rimbachia)]

  • Small Inoperculate Cups (Ascomycota) and Basidiomycota - this group of cups <1cm wide are recognized macroscopically by generally growing on wood or plant debris.
  • tiny, hairy cups at first filled with one or more 'bird's eggs' are bird's nests. (Old specimens will be missing the eggs)!
  • if the cap is clearly convex instead of concave or plane and there is a stem, see the earth tongues instead.
  • also included are the few small Basidiomycota on wood that more resemble cups than they do any other Basidiomycota category.

Leotiomycetes p.p. Basidiomycota [Agaricales - Marasmioid (Calyptella, Henningsomyces, Lachnella, Merismodes), Russulales (Aleurodiscus)]

The Northern Pacific Railway is often overshadowed by the Transcontinental Railroad. The latter was completed by the Union Pacific (UP) and Central Pacific (CP) in 1869, running the 42nd parallel between Omaha, Nebraska Territory and Sacramento, California. It offered the West its first efficient means of transportation for greater economic opportunities. For all the Transcontinental Railroad's accolades, the NP carried its own great story. It undertook a similar endeavor to reach the Pacific Northwest but did so without the aid of federal loans. At first, it appeared the railroad would be built without difficulty as noted banker Jay Cooke secured several million dollars in financing. However, fortunes soon turned and the NP slipped into bankruptcy.

As Northern Pacific languished it seemed unlikely the project would ever be finished. In time, several individuals stepped forward and oversaw its completion, thus establishing the first through route to the Puget Sound. After 1900, fabled tycoon James J. Hill gained control and the NP joined his so-called 'Hill Lines' which included the Great Northern; Chicago, Burlington & Quincy; and subsidiary Spokane, Portland & Seattle. After numerous attempts the four became one in 1970 when Burlington Northern, Inc. (BNI) was formed. Today, NP's unique Yin Yang herald has vanished but segments of its network remain in service under successor BNSF Railway.

Northern Pacific F7A #6507-A is ahead of train #3, the westbound 'Alaskan,' as it makes a flag stop at Trout Creek, Montana in May of 1949. On this day the train was carrying an RPO (Railway Post Office), mail/express, coaches, a cafe, and Pullman sleeper. A.E. Bennett photo.

Building The Northern Pacific Railway

The Northern Pacific is a very old tale involving great hardship and struggle. Many individuals came together in overseeing its completion. Although never celebrated like the Transcontinental Railroad it was nevertheless instrumental in opening another area of the country to new possibilities. Following its completion along the 49th parallel the states of North Dakota and South Dakota (November 2, 1889), Montana (November 8, 1889), Washington (November 11, 1889), and Idaho (July 3, 1890) all joined the Union. As these former territories were settled and their cities grew, an ever-increasing volume of freight and passengers flowed over Northern Pacific's rails. Its early years were defined by financial difficulty due to very high construction costs. This endured for nearly two decades until James Hill, the 'Empire Builder,' acquired control and NP's future was secured. At its zenith it connected the Twin Cities and Duluth/Superior with Spokane, Seattle, Portland, and other western points. In later years it operated a fine fleet of trains, including the North Coast Limited and Mainstreeter, while also whisking patrons to and from Yellowstone National Park. Interestingly, its immediate heritage can be traced all the way back to another important event in American history, Lewis and Clark's expedition.

Related Reading

Northern Pacific's Other Premier Transcontinental Trains

Alaskan: (Twin Cities - Portland)

The Northern Pacific Railway logo. Author's work.

The Northern Pacific's route closely followed this fabled journey which departed from St. Louis in May of 1804. The two individuals responsible for the historic endeavor included Captain Merriweather Lewis and Lieutenant William Clark, both Virginians. According to the book, 'The Northern Pacific, Main Street Of The Northwest: A Pictorial History' by author and historian Charles R. Wood, President Thomas Jefferson commissioned the men to document newly acquired western lands from France (the Louisiana Purchase) to, 'explore the Missouri River, and such principal stream as, by its course and communication with the waters of the Pacific Ocean, whether the Columbia, Oregon, Colorado, or any other river may offer the most direct and practicable water communication across the continent for the purpose of commerce.' They returned to St. Louis on September 23, 1806 and while their trek yielded invaluable information, thoughts of a railroad were still decades away. The first such proposals began in 1853 when then-Secretary of War Jefferson Davis (who later became president of the Confederate States of America) was tasked with surveying routes to the Pacific Coast. In the end, eight different options put forth running various parallels from north to south. These included the 49th, 47th, 42nd, 41st, 39th, 38th, 35th, and 32nd.

Northern Pacific 'covered wagons' lead a manifest freight east of Washington's Cascade Mountains along the Upper Yakima Reservoir.

Each had its pros and cons although, unfortunately, politics overshadowed everything. Tensions between Northern and Southern states were nearing a crescendo and the ongoing issue of slavery precluded any progress regarding a transcontinental railroad. It all boiled over when Abraham Lincoln was elected president on November 6, 1860, a man despised in the South. Only weeks later, South Carolina formally seceded from the Union (December 20, 1860); several others soon followed, Confederate forces opened fire on federal troops stationed inside Fort Sumter in Charleston Harbor on April 12, 1861, and the Civil War was upon the nation. With the country in turmoil the North now had the freedom to choose whichever route it wished and settled on the central option along the 42nd parallel. It was not long before stirrings of a second line along a northern trajectory also gained momentum. These efforts were led by senators from Northern states and, in particular, Josiah Perham, an eastern railroad promoter. Following great effort he secured a rare federal charter for the Northern Pacific Railroad Company. This bill later passed both houses of Congress and was signed into law by President Lincoln on July 2, 1864.

Pacific Northwest Crickets

Unfortunately, despite many attempts neither Perham nor other politicians could garner enough support for government loans. These would have greatly aided the enterprise but the Transcontinental Railroad had cost so much money Washington soured on the idea of funding another such undertaking. While the Northern Pacific was awarded land grants it would have to raise the needed capital on its own. It was further handicapped by being unable to mortgage the property. In the end, Perham's efforts went nowhere and the charter lay dormant for years. A new individual then joined the project, J. Gregory Smith. After he also failed to achieve federal support he attempted to woo prominent Eastern/Midwestern railroaders. They also showed little interest. Smith's efforts did, however, procure two important changes; an extension of NP's completion date (July 4, 1877) and an approval to mortgage. The latter was particularly important as it meant $100 million in construction bonds could be immediately sold. The project now had some merit which saw Jay Cooke and his banking firm, Jay Cooke & Company, enter the picture.

He had made a name for himself during the Civil War by selling war bonds throughout the United States and Europe. After coming on board his banking company, in essence, gained control of the NP. In the summer of 1869 more surveys were carried out on a planned route running west from Lake Superior. It would pass through the Twin Cities of Minneapolis/St. Paul, head through the Dakotas and Montana (then territories), and reach Spokane. From that point the corridor would head southwesterly towards the Columbia River and follow it into Portland, Oregon. Finally, what was dubbed the 'Cascade Branch' would be built due west through Washington and penetrate the Puget Sound region. The entire project was estimated to cost more than $85 million. The railroad began construction from Thomsons Junction, slightly west of Duluth, on February 15, 1870. Here, the NP met another Cooke-controlled subsidiary, the Lake Superior & Mississippi, which had opened to St. Paul/Duluth via a southwesterly heading. Within two years, Cooke had managed to sell an impressive $30 million and, by 1872, the NP was opened to Bismarck, Dakota Territory (450 miles). In addition, a western component was completed between Kalama and Tacoma, Washington Territory (roughly 100 miles).

Northern Pacific's train #26, the eastbound 'North Coast Limited,' departs Minneapolis, circa 1968. The train will soon be handed over to the Chicago, Burlington & Quincy in St. Paul for its run to Chicago.

For a moment it seemed the entire scheme might actually be finished relatively quickly. However, bond sales soon slowed to a trickle and Gregory Smith, then NP's president, resigned in August, 1872. As the company's fortunes failed to improve both Jay Cooke's firm and the railroad slipped into bankruptcy on September 18, 1873 setting off a chain reaction of bank failures, causing the United States to slip into a depression. With a bleak future, along with a woefully inadequate traffic base, it appeared the railroad's fate was sealed. As officials fought off Congressional attempts to revoke NP's land grants they managed to complete a short western branch from Tacoma to Wilkeson where coal was discovered (financed entirely through the road's earnings back east). The company was subsequently reorganized in 1875 and came under the control of eastern capitalists. As Mike Schafer notes his book, 'More Classic American Railroads,' these new owners paved the way for the crucial financing needed to see its completion through $40 million in new bonds. As the economy slowly recovered so did NP's earnings power; first, a subsidiary known as the Western Railroad Company of Minnesota completed a direct link between Sauk Rapids and Brainerd, which offered a through route from those points into St. Paul.

A company photo of Northern Pacific's flagship, the 'North Coast Limited' (Chicago - Seattle), led by F9A #6701-C as it passes through western Montana circa 1969.

The next priority involved finishing the railroad before its latest Congressional extension (July 4, 1879) expired. If not, the government had authorization to cancel its charter. While the NP ultimately failed to meet this deadline, revocation of its charter proved extraordinarily difficult and was never successfully carried out. In the meantime, work resumed on all fronts and by 1880 it appeared the project would, at long last, be finished. However, as was so often the case during that era, powerful interests worked very hard to block or stall the effort. These parties, notably the Union Pacific, managed to preclude NP from obtaining further extensions on its deadline while Henry Villard, who owned the very successful Oregon Railway & Navigation Company (OR&N), tried to keep it out of the Pacific Northwest. At the time, Villard's OR&N (incorporated on July 13, 1879), controlled all trade along the Columbia River through a combination of steamboats and rail service. But, when it appeared increasingly unlikely that he could stop Northern Pacific's advance, the wealthy businessman purchased control of the railroad in 1881 through a new holding company known as the Oregon & Transcontinental Company.

Villard's ownership, though, did not amend NP's outlook as it pressed on towards completion (which still required more than 900 miles of new construction). There were changes, however. The biggest involved the western approach; instead of building its own line, Villard's OR&N was utilized along the Columbia River. As NP's progress continued westward, it breached Bozeman Pass within Montana's Belt Mountains via a 3,610-foot tunnel completed on October 28, 1882. Less than a year later, during June of 1883, rails arrived in Helena. Things became more difficult as crews dealt with the rugged topography of western Montana and northern Idaho. Some of the most impressive engineering feats here included O'Keefe's Canyon Trestle (1,800-feet long and 112-feet high), Marent's Gulch Trestle (860-feet long and 226-feet high), and the 3,850-foot tunnel over Mullan Pass. Like all of the West's major transcontinental railroads, construction crews witnessed incredible hardship but those in charge persevered; workers from the east met their western counterparts in Hell Gate Canyon (near Helena) on August 23, 1883. A final spike ceremony was held in Gold Creek, Montana on September 8th where a number of high ranking dignitaries, some as far away as Europe, were on-hand to see the event.

Northern Pacific 2-8-2 #1545 (W) at work in Minneapolis on May 30, 1952. Russ Porter photo.

The Modern Northern Pacific Railway

It also marked another major milestone in American history as the country now enjoyed two routes to the Pacific coast. But for its many accolades, the Northern Pacific had still not fulfilled its charter by directly serving the Puget Sound. Utilizing the OR&N to reach Tacoma would not suffice. Furthermore, this connection was not indefinitely guaranteed when Villard resigned as NP's president in 1884 (the OR&N would eventually wind up under rival Union Pacific's control by 1887). To remedy this situation, officials began construction on the so-called, 248-mile 'Cascade Branch' that year where grading commenced due west from Pasco, Washington on July 1, 1884. It headed in a northwesterly direction away from the Columbia River and carried relatively gentle grades until it neared Ellensburg. Here, it met the formidable Cascade Mountains and required even more impressive engineering accomplishments. The most spectacular was the tunnel over Garfield Pass, later known as Stampede Pass, which sat at an elevation of 2,852 feet. The completed bore was 1.8 miles in length and completed on May 27, 1888. By this time work had already been finished across the remainder of the branch and the Northern Pacific finally enjoyed a direct route to the Puget Sound.

A perfect, A-B-B-A lashup of Northern Pacific FT's lead a freight extra towards Bozeman Tunnel west of Livingston, Montana. Note what appears to be a Chicago & North Western stock car and Baltimore & Ohio 'Wagon Top' boxcar directly behind the locomotives.

Following the railroad's opening it added several hundred miles in secondary branches to increase freight business. In the end, Northern Pacific's independence was short-lived due, in part, to its excessive debt load brought about through its construction. By 1890 this number had soared to over $100 million and the financial Panic of 1893 led to its second receivership on August 15th. It was reorganized on March 16, 1896 as the Northern Pacific Railway. In 1893, James J. Hill, the 'Empire Builder,' had completed his own railroad to the Puget Sound, the Great Northern Railway. As his portfolio continued to expand the book, 'The Great Northern Railway, A History,' by authors Ralph W. Hidy, Muriel E. Hidy, Roy V. Scott, and Don L. Hofsommer notes that he acquired control of longtime rival Northern Pacific in late 1900. He then added the Chicago, Burlington & Quincy a year later for through service into Chicago. The NP later regained a direct routing into Portland when subsidiary Spokane, Portland & Seattle Railway opened between its namesake cities in 1908. At its peak, Northern Pacific's network stretched just over 6,800 miles; it contained 2,831 main line miles and 4,057 miles of secondary (branch) lines. As with all the 'Hill Lines,' NP was a well-managed railroad that generally enjoyed successive years of profitability. It retired its final steam locomotive from main line service in January of 1958. Over the years its network was modernized in other ways with the addition of computers, microwave, and installation of centralized traffic control (CTC) in 1947.

An American Locomotive builder's photo featuring Northern Pacific 4-6-6-4 #5119 (Z-6), circa 1937. The NP wound up with a fleet of nearly 50 Challengers, which were predominantly assigned to heavy freights out west. All were scrapped during the 1950s.

Diesel Locomotive Roster

Pacific

American Locomotive Company

Model TypeRoad NumberDate BuiltQuantity
S442-45 (NP Terminal), 713-7241951-195416
S2107-118, 150-152, 711-7121941-194917
HH-660125-12719403
S113119451
RS1155-15819454
S675019551
RS3850-8631953-195514
RS11900-9171958-196018

Baldwin Locomotive Works

Model TypeRoad NumberDate BuiltQuantity
VO-1000108-109, 111-112, 119-124, 153-154, 160-1741941-194527
VO-660128-1301940-19423
DRS-4-4-1500175-17619482
DRS-6-6-150017719481

Electro-Motive Corporation/Electro-Motive Division

Model TypeRoad NumberDate BuiltQuantity
NW100 (First)19381
SW900100 (Second)19571
NW2101-1061940-19416
SW7107-11419498
SW9115-1181952-19534
SW1200119-1771955-195759
GP9200-3751954-1958176
GP18376-38419609
GP7550-5691950-195320
SD453600-36291966-19682
FTA6000A-6010A, 6000D-6010D1944-194522
FTB6003B-6010B, 6003C-6010C1944-194516
F3A6500A-6506A, 6503C-6506C, 6011A-6017A, 6011D-6017D1947-194825
F3B6500B-6506B, 6500C-6506C, 6011B-6015B, 6011C-6015C194724
F7A6007A-6020A, 6007D-6020D, 6507A-6508A, 6500C-6502C, 6509A-6515A, 6507C-65013C1949-195147
F7B6007B-6020B, 6007C-6020C, 6050, 6510B-6513B, 65501949-195234
FP76600-660119522
F9A6700A-6704A, 6700C-6704C, 7000A-7014A, 7000D-7014D, 7050A1953-195641
F9B6700B-6701B, 7000B-7014B, 7000C-7014C1954-195632

General Electric

Model TypeRoad NumberDate BuiltQuantity
44-Tonner98-991943-19462
U25C2500-25291964-196530
U28C2800-2811196612
U33C3300-3309196910
Northern Pacific F7A #6511-C and a mate sit beside Seattle's King Street Station during August of 1969. Behind the locomotives is Union Station, used by the Union Pacific and later Milwaukee Road. Drew Jacksich photo.

Steam Locomotive Roster

ClassTypeWheel Arrangement
A Through A-5sNorthern4-8-4
B Through B-2, C-1 Through C-33American4-4-0
D Through D-9, K, K-1Mogul2-6-0
E Through E-8, P Through P-3, R, S (Various)Ten-Wheeler4-6-0
F Through F-8, Y Through Y-5Consolidation2-8-0
F-2, F-5, G Through G-2Switcher0-8-0
H, H-1, H-3Switcher0-4-0/t
H-2Saddle TankO-4-2T
H-4Saddle TankO-4-4T
H-5Porter2-4-0
I-1, I-2, K-1, K-2, L Through L-10SwitcherO-6-0
MDecapod2-10-0
N, N-1Atlantic4-4-2
Q Through Q-6Pacific4-6-2
TPrairie2-6-2
VShay0-4-4-4-0T
V-2Heisler0-4-4-0T
W Through W-5Mikado2-8-2
XTwelve-Wheeler4-8-0
Z, Z-1Mallet2-6-6-2
Z-2, Z-3, Z-4Chesapeake2-8-8-2
Z-6, Z-7, Z-8Challenger4-6-6-4
A colorful Northern Pacific caboose at Savanna, Illinois during the early Burlington Northern era on August 15, 1971. Warren Calloway photo.

There had been several attempts to merge the 'Hill Lines' into a unified network dating back to the early 20th century. In 1955 informal talks were again launched between the three allying railroads about regarding this issue. This led to a formal application filed with the Interstate Commerce Commission on February 17, 1961 which would bring together the Northern Pacific, Great Northern, and Chicago, Burlington & Quincy into the previously-named conglomerate. It would comprise 24,500 miles and include leasing the Spokane, Portland & Seattle for a period 10 years before its absorption into the parent company. In typical ICC fashion the process was slow and tedious. Finally, on March 31, 1966 the agency surprisingly voted against the merger in a 6-5 decision. Undeterred the three railroads continued to push forward. A great hurdle was cleared when they worked out an agreement with the Chicago, Milwaukee, St. Paul & Pacific whereby their only transcontinental competitor was afforded eleven new western gateways. This strategic opportunity provided the Milwaukee Road bountiful new sources of interchange traffic, particularly in conjunction with the Southern Pacific at Portland. With this issue resolved the ICC reopened hearings on January 4, 1967. Later that year, on November 30th, the merger was approved by an 8-2 vote. As the process the railroad's name was formally changed to Burlington Northern, Inc. (BNI) during April of 1968. After overcoming a bit more legal work and objections the four railroads finally became one at 12:01 AM on March 2, 1970.

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