Difference between revisions of "The Matrix"

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The Matrix consists of eight sections and can fit on a mere 6 pages.  Each section is based upon phyllotaxy (alternate, opposite, or whorled), leaf type (simple or compound), and the presence or absence of stipules.  Once these three basic pieces of information have been determined, it is a matter of identifying the combination of two or three other traits that allow you to determine the family to which a plant belongs.  So get yourself a branch with some leaves on it and follow the routine until you can assign your specimen to the proper family.
 
The Matrix consists of eight sections and can fit on a mere 6 pages.  Each section is based upon phyllotaxy (alternate, opposite, or whorled), leaf type (simple or compound), and the presence or absence of stipules.  Once these three basic pieces of information have been determined, it is a matter of identifying the combination of two or three other traits that allow you to determine the family to which a plant belongs.  So get yourself a branch with some leaves on it and follow the routine until you can assign your specimen to the proper family.
  
Please note that The Matrix is not complete.  Each user may develop his or her own version of the matrix utilizing features that are easily remembered or observed by the user.  As your botanical knowledge increases, you will certainly want to expand the matrix to accommodate your expanding list of plant families and genera.  The Matrix presented here was constructed by Scott Shumway with the help of Dr. Jimenez as part of a course in Tropical Dendrology.  The Matrix may be reproduced, but Dr. Humberto Jimenez should be properly credited as its creator.  Please note that this matrix is restricted to dicots.  In the future I hope to add a section for monocots.
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Please note that The Matrix is not complete.  Each user may develop his or her own version of the matrix utilizing features that are easily remembered or observed by the user.  As your botanical knowledge increases, you will certainly want to expand the matrix to accommodate your expanding list of plant families and genera.  The Matrix presented here was constructed by Scott Shumway with the help of Dr. Jimenez-Saa as part of a course in Tropical Dendrology.  The Matrix may be reproduced, but Dr. Humberto Jimenez-Saa should be properly credited as its creator.  Please note that this matrix is restricted to dicots.  In the future I hope to add a section for monocots.
  
  
===About Dr. Humberto Jimenez===
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===About Dr. Humberto Jimenez-Saa===
  
 
[[Image: Humberto Jimenez.jpg|thumb|right|200px|Dr. Humberto Jimenez-Saa]]
 
[[Image: Humberto Jimenez.jpg|thumb|right|200px|Dr. Humberto Jimenez-Saa]]

Latest revision as of 19:31, 28 April 2011

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The Jimenez Matrix

The Matrix was developed by Dr. Humberto Jimenez Saa as a way of teaching dendrology, the science of tree identification, to students of all levels. It builds upon early work by Dr. Leslie Holdridge, a pioneer in tropical forestry and tropical ecology, aimed at elucidating plant families using only vegetative material. In tropical forests, leaves and bark are almost always available, but flowers and fruits are seasonal and often hidden from those of us who cannot access the canopy the same way as a monkey, bird, or bee. Traditional plant identification and classification is based on flowers which are readily available to most temperate zone botanists, but not easily accessible in most tropical forests.

Strictly speaking, The Matrix is not a taxonomic key. It does not set out to identify any and all plant specimens. It doesn’t even claim to work all the time. BUT it works MOST of the time and is relatively easy to use once you learn some basic terminology and agree to follow the routine described in How To Examine A Plant.

Using the matrix…

The Matrix consists of eight sections and can fit on a mere 6 pages. Each section is based upon phyllotaxy (alternate, opposite, or whorled), leaf type (simple or compound), and the presence or absence of stipules. Once these three basic pieces of information have been determined, it is a matter of identifying the combination of two or three other traits that allow you to determine the family to which a plant belongs. So get yourself a branch with some leaves on it and follow the routine until you can assign your specimen to the proper family.

Please note that The Matrix is not complete. Each user may develop his or her own version of the matrix utilizing features that are easily remembered or observed by the user. As your botanical knowledge increases, you will certainly want to expand the matrix to accommodate your expanding list of plant families and genera. The Matrix presented here was constructed by Scott Shumway with the help of Dr. Jimenez-Saa as part of a course in Tropical Dendrology. The Matrix may be reproduced, but Dr. Humberto Jimenez-Saa should be properly credited as its creator. Please note that this matrix is restricted to dicots. In the future I hope to add a section for monocots.


About Dr. Humberto Jimenez-Saa

Dr. Humberto Jimenez-Saa

To truly appreciate the beauty of The Matrix and to master it, you should take one of the Tropical Dendrology courses offered by Dr. Humberto Jimenez-Saa.

Dr. Humberto Jimenez-Saa is an inspirational teacher. His deep connection to and passionate love of trees is infectious. It is hard to imagine anyone with a greater knowledge of tree identification. As a teacher, he is firmly committed to sharing this knowledge with his students or anyone with an interest in trees. After studying with Humberto, you will have a newfound appreciation for every tree, leaf, or stipule that you encounter anywhere in the world. His love of trees and zeal for teaching is matched by a love of life and hope for the future of humanity. He measures his remaining time on Earth by the need to identify and label as many plants as possible, and freely admits that he has at least another 50-60 years left before his work will be complete. Until then, he will continue to tell us “here’s another tree for you to study…”

Dr. Jimenez' dendrology website is located at: http://www.hjimenez.org/dendrology.html

THE MATRIX

-The following matrix was prepared during the Tropical Dendrology course taught by Dr. Humberto Jimenez-Saa in 2008 in Costa Rica.

Key to the eight sections of the matrix based on phyllotaxy, leaf type, and stipules.

  1. Alternate – Simple Leaves – No Stipules
  2. Alternate – Simple Leaves – With Stipules
  3. Alternate – Compound Leaves – No Stipules
  4. Alternate – Compound Leaves – With Stipules
  5. Opposite Or Whorled – Simple Leaves – No Stipules
  6. Opposite Or Whorled – Simple Leaves – With Stipules
  7. Opposite Or Whorled – Compound Leaves – No Stipules
  8. Opposite Or Whorled – Compound Leaves – With Stipules


1. ALTERNATE – SIMPLE LEAVES – NO STIPULES

Turpentine odor, juvenile lvs red, resin dries dark, Ex: Anacardium, Mangifera Anacardiaceae
Distichous, ranalean odor, string bark, pagoda branching, fibers in live bark, Ex: Annona, Xylopia Annonaceae
Petioles of varying lengths, little horns at base, Ex: Dendropanax, Oreopanax Araliaceae
Obovate lvs clustered at branch tip, sympodial branching, buttresses, Ex: Terminalia Combretaceae
Rank odor, wavy leaf margins, pointy buds, irregularly flattened twigs, 1-seeded berry ± cupule, Ex: Nectandra, Ocotea Lauraceae
Pseudoterminal stipule, brown black dots (lines), Ex: Ardisia Myrsinaceae
Swollen nodes, rat-tail inflorescence, odor, Ex: Piper, Peperomia Piperaceae
Citrus odor, pellucid dots, crenate margins, (spines), falsely simple, Ex: Citrus Rutaceae
Simple & compound, bad tuna odor Roupala (Proteaceae}
3-veined common, perma-press, irregular margins, abundant pith Asteraceae
Pseudo-opposite, anisophylly, rank odor, * hairs, (spines) Solanaceae
3-way branching: 2 horiz + 1 shorter vert, swollen nodes, Ex: Cordia Boraginaceae
White or watery latex, coleters, paired fruits, Ex: Thevetia, Plumeria Apocynaceae
Raspy leaves both sides, 2° veins parallel, reddish bark, mostly lianas, bejucos de agua Dilleniaceae
Distichous, ranalean odor, myristicaceous branching, large seed & red aril, Ex: Virola Myristicaceae



2. ALTERNATE – SIMPLE LEAVES – WITH STIPULES

Petioles of varying lengths, intrapetiolar stipule Araliaceae
Bilobed leaves, like hoof of a deer Bauhinia (Caesalpinioideae}
Watery latex, nectaries on upper petiole Sapium (Euphorbiaceae}
Serrate, stellate hairs, long string bark, mucilage Malvaceae sensu lato
White latex, terminal stipule, annular scars, syconium Ficus (Moraceae)
Sheathing petiole, swollen node, rat-tail infl, odor, terminal stipule, Ex: Peperomia, Piper Piperaceae
Distichous, serrate, uneven lf bases, scabrous one-way, string bark, narrow buttresses, Ex: Trema, Celtis Ulmaceae
Serrate, (distichous), 3° veins parallel & perpendicular to 1°, pellucid dots & dashes, stipules inconspicuous, Ex: Laetia Flacourtiaceae
Large terminal stipule, leaving scars Cecropiaceae
Palmately lobed, peltate, terminal stipule, annular scars, hollow stems with ants, food bodies at base of petiole Cecropia
Palmately lobed, NOT peltate, terminal stipule, annular scars, 3° veins parallel, stilt roots Pourouma
Ovate, inclined stipule scar, 3° veins parallel Coussapoa
Watery latex, nectaries at base of leaf, stellate hairs, senescent leaves red, 3-chambered fruit Croton (Euphorbiaceae}



3. ALTERNATE – COMPOUND LEAVES – NO STIPULES

Imparipinnate, turpentine odor, juvenile lvs red, resin dries dark, Ex: Spondias Anacardiaceae
Palmate, petioles of varying length, little horns at base, Ex: Schefflera Araliaceae
Paripinnate, garlic odor and domatia (odorata), 5-chambered capsule Cedrela (Meliaceae)
Parapinnate, terminal bud on rachis like a half open fist, thickened petiolule Guarea (Meliaceae)
Imparipinnate, leaflet (5-7) size increases toward apex, terminal leaflet cuneate Trichilia (Meliaceae)
Paripinnate, terminal bud shaped like pineapple plant Swietenia (Meliaceae)
Parapinnate, large leaves, distinct texture, large fruit (4-angled capsule) Carapa (Meliaceae)
Citrus odor, pellucid dots, crenate margins, (spines), Ex: Zanthoxylum Rutaceae
Simple & compound, bad tuna odor Roupala (Proteaceae}
Imparipinnate, leaflets alt, bitter taste, Ex: Simarouba Simaroubaceae
Imparipinnate (mostly), serrate, leaflets asymm, grooves on petiole and twig, aborted prolongation on rachis, trees & lianas Sapindaceae
Imparipinnate, petiolule thicker than rachis Papilionoideae (FAB.)
Bipinnate with nectaries Mimosoideae (FAB.)
Bipinnate without nectaries Caesalpinioideae (FAB.)
Imparipinnate, swollen rachis between leaflets, turpentine odor, resin dries white, Ex: Protium, Bursera Burseraceae
Imparipinnate, swollen rachis, bitumid petiole, strong turpentine odor, buttresses common, fr reddish Protium Burseraceae



4. ALTERNATE – COMPOUND LEAVES – WITH STIPULES

Petioles of varying lengths, intrapetiolar stipules, palmate or tri Araliaceae
Bifoliate: Hymenaea, Cynometra, Peltogyne, Macrolobium Caesalpinioideae (FAB.)
Paripinnate with nectaries, ± winged rachis: Inga Mimosoideae (FAB.)
Paripinnate ± fingerlike nectaries: Senna, Cassia Caesalpinioideae (FAB.)
Paripinnate, NO nectaries Caesalpinioideae (FAB.)
Trifoliate, stipels, ± spines: Erythrina Papilionoideae (FAB.)
Bipinnate with nectaries Mimosoideae (FAB.)
Bipinnate without nectaries Caesalpinioideae (FAB.)
Note: bipinnate Fabaceae may lack stipules



5. OPPOSITE OR WHORLED – SIMPLE LEAVES – NO STIPULES

Swollen nodes, stipular ridge, anisophylly, mostly herbs Acanthaceae
Sympetalous, zygomorphic, 4 stamens, ovary superior on fleshy disc, Ex: Crescentia Bignoniaceae
Yellow of creamy latex, 2° veins parellel, thick leaves, “la cosa” sheltering of terminal bud, Ex: Clusia Clusiaceae
Orange latex, terminal bud lance-shaped, ovate lvs, flattened stems Vismia (Clusiaceae
Curvinerved veins, scalariform 2° veins (ladder-like), Ex: Conostegia, Miconia Melastomataceae
Twigs square, (nectaries at leaf base), Ex: Stachytarpheta Verbenaceae
Guava odor, pellucid dots, peripheral veins converge to form marginal vein, Ex: Psidium, Eugenia Myrtaceae
3-veined common, perma-press, irregular margins, abundant pith Asteraceae
White or watery latex, coleters, paired fruits, Ex: Stemmadenia Apocynaceae



6. OPPOSITE OR WHORLED – SIMPLE LEAVES – WITH STIPULES

Interpetiolar stipules, opposite or whorled, entire margins, Ex: Hamelia, Psychotria, Warszewiczia Rubiaceae
Round interpetiolar stipules, montane forest trees Cunoniaceae
Intrapetiolar stipule, T-shaped hairs, large oil-secreting glands on sepals, ungulate petals, trees & lianas, Ex: Byrsonima Malpighiaceae
Free stipules, opposite or 3-whorled, marginal collecting vein, long. ridges, bark soft and breakable, Ex: Vochysia Vochysiaceae



7. OPPOSITE OR WHORLED – COMPOUND LEAVES – NO STIPULES

Sympetalous, zygomorphic, 4 stamens, ovary superior on fleshy disc, trees & lianas, Ex: Jacaranda, Tabebuia Bignoniaceae
Bipinnate, terminal leaflet larger, blue flowers Jacaranda (BIGNON)
Palmate, 5-leaflets, yellow or magenta flowers Tabebuia (BIGNON)
Palmate, 5-9 leaflets Godmania / Cybistax (BIGNON)
Imparipinnate, orange flame flower, African tuliptree Spathodea (BIGNON)
Palmate, 3-leaflets (4,5), square stem Vitex (Verbenaceae)



8. OPPOSITE OR WHORLED – COMPOUND LEAVES – WITH STIPULES

Imparipinnate, winged rachis, interpetiolar stipule Cunoniaceae


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