DOCSLIB.ORG

Seed Camouflage to Counteract Birds Hunger

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text

Load more

Seed camouflage to counteract birds hunger Acmispon wrangelianus All of us know that animals use camouflage and mimicry as strategies to protect themselves from predators. Many examples have become famous with many TV documentaries showing, among others, foxes and rabbits that in higher latitudes are white to be confused with the snow and thus, to become harder to be distinguished and caught. Insects that look like wooden sticks or leaves represent another widely known example, and of course the “king” of camouflage, the chameleon which has developed the capacity to modify the colour of his skin in function of his surrounding environment. But animals are not the only organisms with the capacity to hide from predators. Mushrooms gatherers know very well that fungi have colours often very difficult to distinguish from their environment. In the plant kingdom there are also some famous examples of camouflage like stone plants from the Lithops genus. These succulent plants are native to dry regions of southern Africa and have evolved their shape, size and colour to resemble small stones in their native surroundings. Besides, other less known examples of camouflage strategies also exist in the plant kingdom. Stephanie S. Porter 1 recently published a nice study focused on the capacity of seeds to match the colour of their native soil to reduce their detection by animal predators, mainly birds that have been shown to preferentially consume seeds most divergent from the colour of the substrate. In this sense, seed predators represent an important class of natural enemies of plants that can consume a large proportion of a plant´s reproductive output. However, despite their impact, little is known about how the selective pressure imposed by these seed predators may affect the local adaptation of seed defences. For instance, pine seeds are polymorphic in seed colour which offers a differential fitness in the presence of birds post-fire against a mosaic background of ash and exposed soil. Indeed, background colour matching has been demonstrated to affect seed fitness in nature supporting the advantage of color crypsis. This colour is given by different pigments including flavonoids and anthocyanins. However, the local adaptation of seed colour to a certain soil has not been already demonstrated. With this aim the author chose to study the variation of the colour of Acmispon wrangelianus seeds in different California soils. A. wrangelianus is a small annual herb (Figure 1) native from California that belongs to the family of legumes (Fabaceae). It is highly self-fertile and produces seeds of 2 to 3.5 mm. Among others, this species was chosen for the study because it is widely spread and it is found in many habitats including disturbed zones. Importantly, after dispersal, A. wrangelianus seeds form a persistent seed bank within the soil. Map ot the soils collection sites. | Credit: Porter (2013) Thus, to assess whether A. wrangelianos seed colour can be locally adapted to the colour of a native soil the author collected seeds in the McLauglin Reserve in California from 6 six different sites and 3 locations within each site 3. The distance between each site was relatively short (0.5 to 5 km; Figure 2). Three of these sites corresponded to serpentine soils and three to non-serpentine soils. Serpentine soils are formed by ultramafic rocks, with low nutrients and organic matter content and represent a difficult environment for plant growth. Thus, vegetation of a stressful serpentine soil is sparser than on nonserpentine soils and this kind of open habitats are often seed limited and subjected to higher pressure from seed predators, which could positively select seed colour camouflage. To be sure that the variation in seed colour was due to genetic, rather than environmental effects, the field-collected seeds were grown for one generation in a glasshouse and the seeds were collected for the analysis. Colour measurements were captured as reflectance values quantified from calibrated digital images captured with a dissecting microscope and digital images analysis was performed with Image J, a public domain image processing program. Photographs showing soil and A. wrangelinus seed color matches in three nonserpentine (N) and three serpentine soils (S). The results revealed that A. wrangelianus seeds exhibit significant variation in their colour and that the populations displayed adaptative divergence in seed colour camouflage between serpentine and nonserpetine soils. Therefore, despite the short distances between the sites, natural selection acted in favour for locally camouflaged colour. The authors show that A. wrangelianus seeds more closely matched the colour of their native site than other sites from the same soil type. Moreover, serpentine seeds matched more closely to their native soil colour than nonspertines did for their respective native soil. This suggests that predators would impose a selection eating seeds that differ from the soil colour thus maintaining genetic isolation by adaption. Because seed coloration is a relatively inexpensive mechanism for defence that can be quickly effective. The authors suggested, that the potential of the rapid response to selection may explain how this genetic differentiation can occur on such a fine scale, 5 km maximum distance between soils, despite the gene flow among plants from different communities. References Porter S. (2013) Adaptative divergence in seed colour camouflage in contrasting soil environments. New Phytologist 197:1311-20 .
Recommended publications
  • Acmispon Helleri Notes

    Acmispon Helleri Notes

    Sorrie, B.A. 2015. Notes on morphology of Acmispon helleri (Fabaceae). Phytoneuron 2015-44. 1–3. Published 15 July 2015. ISSN 2153 733X NOTES ON MORPHOLOGY OF ACMISPON HELLERI (FABACEAE) BRUCE A. SORRIE University of North Carolina Herbarium North Carolina Botanical Garden Chapel Hill, North Carolina 27599-3280 ABSTRACT Recent field observations of Acmispon helleri in North Carolina point out a number of discrepancies or omissions regarding published descriptions, including stem color and pubescence, leaflet morphology and vestiture, and corolla color. Degree of foliation strongly corresponds with phenology –– loss of leaves and leaflets over time appears to be common. Acmispon helleri (Britt.) A.A. Heller is the eastern segregate of the western and midwestern A. americanus (Nutt.) Rydb. and is restricted to scattered locations in the piedmont of south-central Virginia, North Carolina, South Carolina, and northeastern Georgia (Weakley 2015). It was formerly placed within Lotus, sometimes as a full species, sometimes as a variety (see Brouillet 2008 and Weakley 2015 for synonymy). Observations of living plants at sites in the lower piedmont of Union County, North Carolina, in 2010 suggest that several morphological characters are at variance with published descriptions. The most detailed description available is that of Wilbur (1963); also very helpful are the illustrations in Chafin (2007). Radford, Ahles, and Bell (1968) followed Wilbur in writing their description. 1. Stem color. Neither Wilbur nor Radford, Ahles, and Bell mention this. In the Union County plants, stems are wholly reddish brown. Branches are green, but often reddish brown basally. 2. Pubescence of stems and branches. Wilbur: stems and branches are "glabrate (especially below) to moderately spreading villous-pubescent." In the Union County plants, stems are sparsely to moderately villous throughout and branches moderately to densely villous.
  • Outline of Angiosperm Phylogeny

    Outline of Angiosperm Phylogeny

    Outline of angiosperm phylogeny: orders, families, and representative genera with emphasis on Oregon native plants Priscilla Spears December 2013 The following listing gives an introduction to the phylogenetic classification of the flowering plants that has emerged in recent decades, and which is based on nucleic acid sequences as well as morphological and developmental data. This listing emphasizes temperate families of the Northern Hemisphere and is meant as an overview with examples of Oregon native plants. It includes many exotic genera that are grown in Oregon as ornamentals plus other plants of interest worldwide. The genera that are Oregon natives are printed in a blue font. Genera that are exotics are shown in black, however genera in blue may also contain non-native species. Names separated by a slash are alternatives or else the nomenclature is in flux. When several genera have the same common name, the names are separated by commas. The order of the family names is from the linear listing of families in the APG III report. For further information, see the references on the last page. Basal Angiosperms (ANITA grade) Amborellales Amborellaceae, sole family, the earliest branch of flowering plants, a shrub native to New Caledonia – Amborella Nymphaeales Hydatellaceae – aquatics from Australasia, previously classified as a grass Cabombaceae (water shield – Brasenia, fanwort – Cabomba) Nymphaeaceae (water lilies – Nymphaea; pond lilies – Nuphar) Austrobaileyales Schisandraceae (wild sarsaparilla, star vine – Schisandra; Japanese
  • Rinconada Checklist-02Jun19

    Rinconada Checklist-02Jun19

    Checklist1 of Vascular Flora of Rinconada Mine and Rinconada Trail San Luis Obispo County, California (2 June 2019) David J. Keil Robert F. Hoover Herbarium Biological Sciences Department California Polytechnic State University San Luis Obispo, California Scientific Name Common Name Family Rare n ❀ Achyrachaena mollis blow wives ASTERACEAE o n ❀ Acmispon americanus var. americanus Spanish-clover FABACEAE o n Acmispon brachycarpus shortpod deervetch FABACEAE v n ❀ Acmispon glaber var. glaber common deerweed FABACEAE o n Acmispon parviflorus miniature deervetch FABACEAE o n ❀ Acmispon strigosus strigose deer-vetch FABACEAE o 1 Please notify the author of additions or corrections to this list ([email protected]). ❀ — See Wildflowers of San Luis Obispo, California, second edition (2018) for photograph. Most are illustrated in the first edition as well; old names for some species in square brackets. n — California native i — exotic species, introduced to California, naturalized or waif. v — documented by one or more specimens (Consortium of California Herbaria record; specimen in OBI; or collection that has not yet been accessioned) o — observed during field surveys; no voucher specimen known Rare—California Rare Plant Rank Scientific Name Common Name Family Rare n Acmispon wrangelianus California deervetch FABACEAE v n ❀ Acourtia microcephala sacapelote ASTERACEAE o n ❀ Adelinia grandis Pacific hound's tongue BORAGINACEAE v n ❀ Adenostoma fasciculatum var. chamise ROSACEAE o fasciculatum n Adiantum jordanii California maidenhair fern PTERIDACEAE o n Agastache urticifolia nettle-leaved horsemint LAMIACEAE v n ❀ Agoseris grandiflora var. grandiflora large-flowered mountain-dandelion ASTERACEAE v n Agoseris heterophylla var. cryptopleura annual mountain-dandelion ASTERACEAE v n Agoseris heterophylla var. heterophylla annual mountain-dandelion ASTERACEAE o i Aira caryophyllea silver hairgrass POACEAE o n Allium fimbriatum var.
  • A New Combination in Acmispon (Fabaceae: Loteae) for California Luc Brouillet Université De Montréal, Montreal, Canada

    A New Combination in Acmispon (Fabaceae: Loteae) for California Luc Brouillet Université De Montréal, Montreal, Canada

    Aliso: A Journal of Systematic and Evolutionary Botany Volume 28 | Issue 1 Article 6 2010 A New Combination in Acmispon (Fabaceae: Loteae) for California Luc Brouillet Université de Montréal, Montreal, Canada Follow this and additional works at: http://scholarship.claremont.edu/aliso Part of the Botany Commons, and the Ecology and Evolutionary Biology Commons Recommended Citation Brouillet, Luc (2010) "A New Combination in Acmispon (Fabaceae: Loteae) for California," Aliso: A Journal of Systematic and Evolutionary Botany: Vol. 28: Iss. 1, Article 6. Available at: http://scholarship.claremont.edu/aliso/vol28/iss1/6 Aliso, 28, p. 63 ’ 2010, Rancho Santa Ana Botanic Garden A NEW COMBINATION IN ACMISPON (FABACEAE: LOTEAE) FOR CALIFORNIA LUC BROUILLET Herbier Marie-Victorin, Institut de recherche en biologie ve´ge´tale, Universite´de Montre´al, 4101 Sherbrooke St. E, Montreal, Quebec, Canada H1X 2B2 ([email protected]) ABSTRACT The new combination Acmispon argophyllus (A.Gray) Brouillet var. niveus (Greene) Brouillet is made. Key words: Acmispon, California, Fabaceae, Loteae, North America, Santa Cruz Island. Acmispon argophyllus (A.Gray) Brouillet var. niveus (Greene) Variety niveus is a northern Channel Islands (California) Brouillet, comb. et stat. nov.—TYPE: California. Santa endemic that is distinguished from the closely related southern Cruz Island [s.d.], E.L. Greene s.n. (holotype CAS!, isotype Channel Islands endemic var. adsurgens (Dunkle) Brouillet by (part of type) UC!). stems ascending to erect (vs. erect), less crowded leaves, a silky (vs. silvery) indumentum, smaller umbels (6–10 vs. 10–13 Basionym: Syrmatium niveum Greene, Bull. Calif. Acad. Sci. 2: 148 flowers), and slightly longer calyx lobes (2.5–5.0 vs.
  • APPENDIX D Biological Technical Report

    APPENDIX D Biological Technical Report

    APPENDIX D Biological Technical Report CarMax Auto Superstore EIR BIOLOGICAL TECHNICAL REPORT PROPOSED CARMAX AUTO SUPERSTORE PROJECT CITY OF OCEANSIDE, SAN DIEGO COUNTY, CALIFORNIA Prepared for: EnviroApplications, Inc. 2831 Camino del Rio South, Suite 214 San Diego, California 92108 Contact: Megan Hill 619-291-3636 Prepared by: 4629 Cass Street, #192 San Diego, California 92109 Contact: Melissa Busby 858-334-9507 September 29, 2020 Revised March 23, 2021 Biological Technical Report CarMax Auto Superstore TABLE OF CONTENTS EXECUTIVE SUMMARY ................................................................................................ 3 SECTION 1.0 – INTRODUCTION ................................................................................... 6 1.1 Proposed Project Location .................................................................................... 6 1.2 Proposed Project Description ............................................................................... 6 SECTION 2.0 – METHODS AND SURVEY LIMITATIONS ............................................ 8 2.1 Background Research .......................................................................................... 8 2.2 General Biological Resources Survey .................................................................. 8 2.3 Jurisdictional Delineation ...................................................................................... 9 2.3.1 U.S. Army Corps of Engineers Jurisdiction .................................................... 9 2.3.2 Regional Water Quality
  • Phylogeny of the Genus Lotus (Leguminosae, Loteae): Evidence from Nrits Sequences and Morphology

    Phylogeny of the Genus Lotus (Leguminosae, Loteae): Evidence from Nrits Sequences and Morphology

    813 Phylogeny of the genus Lotus (Leguminosae, Loteae): evidence from nrITS sequences and morphology G.V. Degtjareva, T.E. Kramina, D.D. Sokoloff, T.H. Samigullin, C.M. Valiejo-Roman, and A.S. Antonov Abstract: Lotus (120–130 species) is the largest genus of the tribe Loteae. The taxonomy of Lotus is complicated, and a comprehensive taxonomic revision of the genus is needed. We have conducted phylogenetic analyses of Lotus based on nrITS data alone and combined with data on 46 morphological characters. Eighty-one ingroup nrITS accessions represent- ing 71 Lotus species are studied; among them 47 accessions representing 40 species are new. Representatives of all other genera of the tribe Loteae are included in the outgroup (for three genera, nrITS sequences are published for the first time). Forty-two of 71 ingroup species were not included in previous morphological phylogenetic studies. The most important conclusions of the present study are (1) addition of morphological data to the nrITS matrix produces a better resolved phy- logeny of Lotus; (2) previous findings that Dorycnium and Tetragonolobus cannot be separated from Lotus at the generic level are well supported; (3) Lotus creticus should be placed in section Pedrosia rather than in section Lotea; (4) a broad treatment of section Ononidium is unnatural and the section should possibly not be recognized at all; (5) section Heineke- nia is paraphyletic; (6) section Lotus should include Lotus conimbricensis; then the section is monophyletic; (7) a basic chromosome number of x = 6 is an important synapomorphy for the expanded section Lotus; (8) the segregation of Lotus schimperi and allies into section Chamaelotus is well supported; (9) there is an apparent functional correlation be- tween stylodium and keel evolution in Lotus.
  • Fruits and Seeds of Genera in the Subfamily Faboideae (Fabaceae)

    Fruits and Seeds of Genera in the Subfamily Faboideae (Fabaceae)

    Fruits and Seeds of United States Department of Genera in the Subfamily Agriculture Agricultural Faboideae (Fabaceae) Research Service Technical Bulletin Number 1890 Volume I December 2003 United States Department of Agriculture Fruits and Seeds of Agricultural Research Genera in the Subfamily Service Technical Bulletin Faboideae (Fabaceae) Number 1890 Volume I Joseph H. Kirkbride, Jr., Charles R. Gunn, and Anna L. Weitzman Fruits of A, Centrolobium paraense E.L.R. Tulasne. B, Laburnum anagyroides F.K. Medikus. C, Adesmia boronoides J.D. Hooker. D, Hippocrepis comosa, C. Linnaeus. E, Campylotropis macrocarpa (A.A. von Bunge) A. Rehder. F, Mucuna urens (C. Linnaeus) F.K. Medikus. G, Phaseolus polystachios (C. Linnaeus) N.L. Britton, E.E. Stern, & F. Poggenburg. H, Medicago orbicularis (C. Linnaeus) B. Bartalini. I, Riedeliella graciliflora H.A.T. Harms. J, Medicago arabica (C. Linnaeus) W. Hudson. Kirkbride is a research botanist, U.S. Department of Agriculture, Agricultural Research Service, Systematic Botany and Mycology Laboratory, BARC West Room 304, Building 011A, Beltsville, MD, 20705-2350 (email = [email protected]). Gunn is a botanist (retired) from Brevard, NC (email = [email protected]). Weitzman is a botanist with the Smithsonian Institution, Department of Botany, Washington, DC. Abstract Kirkbride, Joseph H., Jr., Charles R. Gunn, and Anna L radicle junction, Crotalarieae, cuticle, Cytiseae, Weitzman. 2003. Fruits and seeds of genera in the subfamily Dalbergieae, Daleeae, dehiscence, DELTA, Desmodieae, Faboideae (Fabaceae). U. S. Department of Agriculture, Dipteryxeae, distribution, embryo, embryonic axis, en- Technical Bulletin No. 1890, 1,212 pp. docarp, endosperm, epicarp, epicotyl, Euchresteae, Fabeae, fracture line, follicle, funiculus, Galegeae, Genisteae, Technical identification of fruits and seeds of the economi- gynophore, halo, Hedysareae, hilar groove, hilar groove cally important legume plant family (Fabaceae or lips, hilum, Hypocalypteae, hypocotyl, indehiscent, Leguminosae) is often required of U.S.
  • Sierra Azul Wildflower Guide

    Sierra Azul Wildflower Guide

    WILDFLOWER SURVEY 100 most common species 1 2/25/2020 COMMON WILDFLOWER GUIDE 2019 This common wildflower guide is for use during the annual wildflower survey at Sierra Azul Preserve. Featured are the 100 most common species seen during the wildflower surveys and only includes flowering species. Commonness is based on previous surveys during April for species seen every year and at most areas around Sierra Azul OSP. The guide is a simple color photograph guide with two selected features showcasing the species—usually flower and whole plant or leaf. The plants in this guide are listed by Color. Information provided includes the Latin name, common name, family, and Habit, CNPS Inventory of Rare and Endangered Plants rank or CAL-IPC invasive species rating. Latin names are current with the Jepson Manual: Vascular Plants of California, 2012. This guide was compiled by Cleopatra Tuday for Midpen. Images are used under creative commons licenses or used with permission from the photographer. All image rights belong to respective owners. Taking Good Photos for ID: How to use this guide: Take pictures of: Flower top and side; Leaves top and bottom; Stem or branches; Whole plant. llama squash Cucurbitus llamadensis LLAMADACEAE Latin name 4.2 Shrub Common name CNPS rare plant rank or native status Family name Typical bisexual flower stigma pistil style stamen anther Leaf placement filament petal (corolla) sepal (calyx) alternate opposite whorled pedicel receptacle Monocots radial symmetry Parts in 3’s, parallel veins Typical composite flower of the Liliy, orchid, iris, grass Asteraceae (sunflower) family 3 ray flowers disk flowers Dicots Parts in 4’s or 5’s, lattice veins 4 Sunflowers, primrose, pea, mustard, mint, violets phyllaries bilateral symmetry peduncle © 2017 Cleopatra Tuday 2 2/25/2020 BLUE/PURPLE ©2013 Jeb Bjerke ©2013 Keir Morse ©2014 Philip Bouchard ©2010 Scott Loarie Jim brush Ceanothus oliganthus Blue blossom Ceanothus thyrsiflorus RHAMNACEAE Shrub RHAMNACEAE Shrub ©2003 Barry Breckling © 2009 Keir Morse Many-stemmed gilia Gilia achilleifolia ssp.
  • Lotus Scoparius (Nutt. in Torr. & A. Gray) Ottley [= Acmispon Glaber

    Lotus Scoparius (Nutt. in Torr. & A. Gray) Ottley [= Acmispon Glaber

    SPECIES Lotus scoparius (Nutt. in Torr. & A. Gray) Ottley [= Acmispon glaber (Vogel) Brouillet] NRCS CODE: Tribe: Loteae LOSC2 Subfamily: Papilionoideae LOSCS2 Family: Fabaceae LOSCB Order: Fabales Subclass: Rosidae Class: Magnoliopsida LOSCB , Riverside Co., A. Montalvo 2009 LOSCS2, Monterey coast, A. Montalvo 2003 LOSCB, Riverside Co., A. Montalvo 2010, Subspecific taxa 1. LOSCS2 1. Lotus scoparius var. scoparius 2. LOSCB 2. Lotus scoparius (Nutt.) Ottley var. brevialatus Ottley Synonyms 1. Acmispon glaber (Vogel) Brouillet var. glaber [New name in Jepson Manual 2nd Edition, JepsonOnline 2010] Hosackia scoparia Nutt. in T. and G. (taxa numbered as above) H. glaber Greene H. crassifolia Nutt., not Benth L. glaber Greene, not Mill. L. scoparius (Torr. & A. Gray) Ottley L. scoparius (Nutt. in T. & G.) Ottley ssp. scoparius (Ottley) Munz Lotus scoparius (Nutt.) Ottley var. perplexans Hoover p.p. Syrmatium glabrum Vogel 2. Acmispon glaber (Vogel) Brouillet var. brevialatus (Ottley) Brouillet [New name in Jepson Manual 2nd Edition] Hosackia glabra (Vogel) Torr. var. brevialata (Ottley) Abrams Lotus scoparius (Torr. & A. Gray) Ottley var. brevialatus Ottley Lotus scoparius (Nutt. in T. & G.) Ottley ssp. brevialatus (Ottley) Munz Common name General for species: California broom, deerweed 1. coastal deerweed, common deerweed (taxa numbered as above) 2. desert deerweed, western bird's foot trefoil, short-winged deerweed (Roberts 2008, Painter 2009, USDA PLANTS 2010). Over 45 taxa of Lotus were recognized in Isely's treatment in Hickman (1993) for California. These taxa had been grouped and regrouped into various species as well as subgenera or genera based on morphology for over a century. Allan & Porter (2000) analyzed DNA (ITS and nuclear ribosomal DNA), geographic, and morphological data for more than 45 taxa of Lotus together with additional related taxa of Loteae and found several geographically distinct lineages.
  • Bob Allen's OCCNPS Presentation About Plant Families.Pages

    Bob Allen's OCCNPS Presentation About Plant Families.Pages

    Stigma How to identify flowering plants Style Pistil Bob Allen, California Native Plant Society, OC chapter, occnps.org Ovary Must-knows • Flower, fruit, & seed • Leaf parts, shapes, & divisions Petal (Corolla) Anther Stamen Filament Sepal (Calyx) Nectary Receptacle Stalk Major local groups ©Bob Allen 2017 Apr 18 Page !1 of !6 A Botanist’s Dozen Local Families Legend: * = non-native; (*) = some native species, some non-native species; ☠ = poisonous Eudicots • Leaf venation branched; veins net-like • Leaf bases not sheathed (sheathed only in Apiaceae) • Cotyledons 2 per seed • Floral parts in four’s or five’s Pollen apertures 3 or more per pollen grain Petal tips often • curled inward • Central taproot persists 2 styles atop a flat disk Apiaceae - Carrot & Parsley Family • Herbaceous annuals & perennials, geophytes, woody perennials, & creepers 5 stamens • Stout taproot in most • Leaf bases sheathed • Leaves alternate (rarely opposite), dissected to compound Style “horns” • Flowers in umbels, often then in a secondary umbel • Sepals, petals, stamens 5 • Ovary inferior, with 2 chambers; styles 2; fruit a dry schizocarp Often • CA: Apiastrum, Yabea, Apium*, Berula, Bowlesia, Cicuta, Conium*☠ , Daucus(*), vertically Eryngium, Foeniculum, Torilis*, Perideridia, Osmorhiza, Lomatium, Sanicula, Tauschia ribbed • Cult: Apium, Carum, Daucus, Petroselinum Asteraceae - Sunflower Family • Inflorescence a head: flowers subtended by an involucre of bracts (phyllaries) • Calyx modified into a pappus • Corolla of 5 fused petals, radial or bilateral, sometimes both kinds in same head • Radial (disk) corollas rotate to salverform • Bilateral (ligulate) corollas strap-shaped • Stamens 5, filaments fused to corolla, anthers fused into a tube surrounding the style • Ovary inferior, style 1, with 2 style branches • Fruit a cypsela (but sometimes called an achene) • The largest family of flowering plants in CA (ca.
  • Acmispon Glaber (Vogel) Brouillet [Updated 2017] = Lotus Scoparius (Nutt

    Acmispon Glaber (Vogel) Brouillet [Updated 2017] = Lotus Scoparius (Nutt

    I. SPECIES Acmispon glaber (Vogel) Brouillet [Updated 2017] = Lotus scoparius (Nutt. in Torr. & A. Gray) Ottley NRCS CODE: [none for Tribe: Loteae Family: Fabaceae Subclass: Rosidae Acmispon] Subfamily: Papilionoideae Order: Fabales Class: Magnoliopsida [LOSC2 code for L. 4 mm scoparius ] Acmispon glaber var. brevialatus [= Lotus scoparius var. brevialatus] 15 mm seedling with linear cotyledons and first pair of true leaves 4 mm Acmispon glaber var. glaber erect form prostrate form on Monterey coast A. Subspecific taxa 1. no NRCS code 1. Acmispon glaber (Vogel) Brouillet var. glaber 2. no NRCS code 2. Acmispon glaber (Vogel) Brouillet var. brevialatus (Ottley) Brouillet [accepted by Baldwin et al. (2012), Jepson eFlora (2017)] B. Common name General for species: deerweed, California broom 1. coastal deerweed, common deerweed, deerweed, coastal deerbroom (taxa numbered as above; 2. short-winged deerweed, desert deerweed, desert deerbroom, western bird's foot trefoil names listed first used below) (Roberts 2008, Allen & Roberts 2013, Calflora 2016, USDA PLANTS 2016). Last modified: 10/19/2018 LOSC2 Update, 1 Printed: 10/19/2018 C. Synonyms 1. LOSCS2 1. Lotus scoparius (Nutt.) Ottley var. scoparius Hosackia scoparia Nutt. in T. and G. H. glaber Greene H. crassifolia Nutt., not Benth L. glaber Greene, not Mill. L. scoparius (Torr. & A. Gray) Ottley L. scoparius (Nutt. in T. & G.) Ottley ssp. scoparius (Ottley) Munz Lotus scoparius (Nutt.) Ottley var. perplexans Hoover p.p. Syrmatium glabrum Vogel 2. LOSCB 2. Lotus scoparius (Nutt.) Ottley var. brevialatus Ottley (taxa numbered as above) Hosackia glabra (Vogel) Torr. var. brevialata (Ottley) Abrams Lotus scoparius (Torr. & A. Gray) Ottley var. brevialatus Ottley Lotus scoparius (Nutt.
  • Acmispon Glaber Var

    Acmispon Glaber Var

    Finding Balance: Considering Species' Traits, Species Distribution Models, and Climate Forecasting in Seed Sourcing Decisions Arlee M. Montalvo Nov. 15, 2016 Do No Harm Workshop, Davis, CA Acknowledgements: My collaborators! Erin C. Riordan- the modeling and maps Jan L. Beyers- editing, profile assistance Thanks to USFS Pacific Southwest Research Station and RCRCD for funding and UCR and UCLA for logistical support! California shrublands occupy a diverse landscape: Ecological Sections and Subsections Goudey and Smith (1994) updated with ECOMAP (2007) Parent geology continental influence topography ocean influence Precipitation and temperature Ecological Sections can be diverse and contain many contrasting Subsections Elevation: 300 to 11,500 ft Precipitation: 6 to 40 inches Temperature: 40° to 70°F Goudey & Smith 1994 Growing Season: 150 to 300 days Environmental diversity supports amazing biological diversity California shrublands and their foundation plant taxa are diverse protecting, supporting, managing native biodiversity chaparral alluvial scrub coastal sage scrub Many foundation species of shrubs are distributed across multiple Ecological Sections and plant communities Plant Community Plant Community Scientific Name Life Form‡ ALSC CHAP CSS MIX Scientific Name Life Form‡ ALSC CHAP CSS MIX Acmispon glaber var. brevialatus† suffr subshr X X Eriodictyon trichocalyx var. lanatum suffr subshr X X Acmispon glaber var. glaber † Forsuffr subshreachX ofX 36X shrubsX E. t. var &. trichocalyx subshrubs: suffr subshr X X X Adenostoma fasciculatum shrub X X X Eriogonum fasciculatum var. Arctostaphylos glandulosa (3 subsp) shrub X fasciculatum subshrub X X Artemisia californica subshrub X X X E. f. var. foliolosum subshrub X X X X E. f. var. polifolium subshrub X X Ceanothus crassifolius var.