DOCSLIB.ORG

Territory Size Caudata

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Territory Size Caudata CAUDATA TERRITORY SIZE - What is the territory size for the species? Species Common Name Territory Size Cryptobranchidae Giant Salamander Cryptobranchus a. alleganiensis Eastern Hellbender Unk Sirenidae Sirens Siren i. intermedia Eastern Lesser Siren Unk Siren lacertina Greater Siren Unk Amphiumidae Congo Eels Amphiuma means Two-toed Amphiuma Unk Proteidae Waterdogs Necturus m. maculosus Common Mudpuppy Unk Necturus punctatus Dwarf Waterdog Unk Salamandridae True Salamanders Notophthalmus v. viridescens Red-spotted Newt Unk Ambystomatidae Mole Salamanders Ambystoma barbouri Streamside Salamander Unk Ambystoma jeffersonianum Jefferson Salamander Unk Ambystoma laterale Blue-spotted Salamander Unk Ambystoma mabeei Mabee's Salamander Unk Ambystoma maculatum Spotted Salamander Unk Ambystoma opacum Marbled Salamander Unk Ambystoma talpoideum Mole Salamander Unk Ambystoma texanum Small-mouthed Salamander None (Parmelee 1993) Ambystoma t. tigrinum Eastern Tiger Salamander Unk Plethodontidae Lungless Salamanders Aneides aeneus Green Salamander Unk Desmognathus auriculatus Southern Dusky Salamander Unk Desmognathus f. fuscus Northern Dusky Salamander Unk Desmognathus marmoratus Shovel-nosed Salamander Unk Desmognathus monticola Seal Salamander Unk Desmognathus ochrophaeus Allegheny Mountain Dusky <1 sq m (Holomuzki 1982) Salamander Desmognathus orestes Blue Ridge Dusky Salamander Unk Desmognathus quadramaculatus Black-bellied Salamander 138-4903 sq cm, avg 1207 sq cm (Camp and Lee 1996) Desmognathus welteri Black Mountain Salamander Unk Desmognathus wrighti Pygmy Salamander Unk Eurycea bislineata Northern Two-lined Salamander 2 inches from shelter point in lab experiement (after this pt. intruders were attacked) (Grant 1955) Eurycea cirrigera Southern Two-lined Salamander 2 inches from shelter point in lab experiement (after this pt. intruders were attacked) (Grant 1955) Eurycea guttolineata Three-lined Salamander Unk Eurycea l. longicauda Long-tailed Salamander Unk Eurycea lucifuga Cave Salamander Unk Eurycea wilderae Blue Ridge Two-lined 2 inches from shelter point in lab Salamander* filled in with same experiement (after this pt. intruders info as E. bislineata and E. were attacked) (Grant 1955) cirrigera because recently split and little new info. specifically for this sp. Gyrinophilus p. duryi Kentucky Spring Salamander Unk Gyrinophilus p. porphyriticus Northern Spring Salamander Unk Gyrinophilus subterraneus West VA Spring Salamander Unk Hemidactylium scutatum Four-toed Salamander Unk Plethodon chlorobryonis Atlantic Coast Slimy Salamander Unk Plethodon cinereus Eastern Red-backed 0.16 - 0.33 (Petranka 1998) Salamander Plethodon cylindraceus White-spotted Slimy Salamander Unk Plethodon electromorphus Northern Ravine Salamander Unk Plethodon g. glutinosus Northern Slimy Salamander Unk Plethodon hoffmani Valley and Ridge Salamander Unk Plethodon hubrichti Peaks of Otter Salamander Unk Plethodon jordani Jordan's Salamander Unk Plethodon kentucki Cumberland Plateau 4-6 m2 in M, 3.5-5.5 m2 in F, 1-2.5 m2 Salamander in Juv (Marvin 1998) Plethodon nettingi Cheat Mountain Salamander Unk Plethodon punctatus Cow Knob Salamander Unk Plethodon richmondi Ravine Salamander Unk Plethodon shenandoah Shenandoah Salamander Unk Plethodon ventralis Southern Zigzag Salamander Unk Plethodon virginia Shenandoah Mountain Unk Salamander Plethodon wehrlei Wehrle's Salamander Unk Plethodon welleri Weller's Salamander Unk Plethodon yonahlossee Yonahlossee Salamander Unk Pseudotriton m. montanus Eastern Mud Salamander Unk Pseudotriton m. diastictus Midland Mud Salamander Unk Pseudotriton r. ruber Northern Red Salamander Unk Pseudotriton r. nitidus Blue Ridge Red Salamander Unk Stereochilus marginatus Many-lined Salamander Unk Territory Size Codes: State in m2 or km2.
Load more

Recommended publications
  • Ramsey's Draft Shenandoah Mountain Non-Native Invasive
    The George Washington National Forest and Ramsey’s Draft Wilderness Area WEST VIRGINIA I-81 Rt. 33 HARRISONBURG Rt. 33 Ramsey’s Draft Wild Virginia is a grassroots, nonprofit organization dedicated to RAMSEY’S DRAFT I-81 Ramsey’s Draft Wilderness was created in 1984 and is one of six wilderness areas in the George preserving wild forest ecosystems in Virginia’s national forests. Since 1995 we Rt. 250 Washington National Forest (GW). Formally identifying and designating areas as wilderness is have worked to protect one of the last large wild forests remaining in eastern important for maintaining the character and ecological integrity of the forest. Wilderness areas are STAUNTON North America, the Shenandoah Mountain area of the George Washington defined as “land retaining its primeval character and influence, without permanent improvements VIRGINIA Rt. 250 National Forest (GW). or human habitation…” that have “been affected primarily by the forces of nature,” providing I-64 “outstanding opportunities for solitude or a primitive and unconfined type of recreation.” Through education and outreach, Wild Virginia informs and mobilizes citizens I-81 Despite being the national forest closest to Washington, D.C., the GW is the best back country about issues, threats, and opportunities for the GW. Wild Virginia is also a I-64 “watchdog” in the forest, monitoring all proposed projects (e.g., timber sales, resource in all of Central Appalachia, containing approximately 250,000 acres of Inventoried road construction). Roadless Areas. The amount of roadless areas, wilderness areas, and other special places in the LEXINGTON Ramsey’s Draft Wilderness Area GW make it a rare occurrence in eastern North America.
    [Show full text]
  • Comparative Osteology and Evolution of the Lungless Salamanders, Family Plethodontidae David B
    COMPARATIVE OSTEOLOGY AND EVOLUTION OF THE LUNGLESS SALAMANDERS, FAMILY PLETHODONTIDAE DAVID B. WAKE1 ABSTRACT: Lungless salamanders of the family Plethodontidae comprise the largest and most diverse group of tailed amphibians. An evolutionary morphological approach has been employed to elucidate evolutionary rela­ tionships, patterns and trends within the family. Comparative osteology has been emphasized and skeletons of all twenty-three genera and three-fourths of the one hundred eighty-three species have been studied. A detailed osteological analysis includes consideration of the evolution of each element as well as the functional unit of which it is a part. Functional and developmental aspects are stressed. A new classification is suggested, based on osteological and other char­ acters. The subfamily Desmognathinae includes the genera Desmognathus, Leurognathus, and Phaeognathus. Members of the subfamily Plethodontinae are placed in three tribes. The tribe Hemidactyliini includes the genera Gyri­ nophilus, Pseudotriton, Stereochilus, Eurycea, Typhlomolge, and Hemidac­ tylium. The genera Plethodon, Aneides, and Ensatina comprise the tribe Pleth­ odontini. The highly diversified tribe Bolitoglossini includes three super­ genera. The supergenera Hydromantes and Batrachoseps include the nominal genera only. The supergenus Bolitoglossa includes Bolitoglossa, Oedipina, Pseudoeurycea, Chiropterotriton, Parvimolge, Lineatriton, and Thorius. Manculus is considered to be congeneric with Eurycea, and Magnadig­ ita is congeneric with Bolitoglossa. Two species are assigned to Typhlomolge, which is recognized as a genus distinct from Eurycea. No. new information is available concerning Haptoglossa. Recognition of a family Desmognathidae is rejected. All genera are defined and suprageneric groupings are defined and char­ acterized. Range maps are presented for all genera. Relationships of all genera are discussed.
    [Show full text]
  • Vernacular Name AMPHIUMA, ONE-TOED (Aka: Congo Eel, Congo Snake, Ditch Eel, Fish Eel and Lamprey Eel)
    1/6 Vernacular Name AMPHIUMA, ONE-TOED (aka: Congo Eel, Congo Snake, Ditch Eel, Fish Eel and Lamprey Eel) GEOGRAPHIC RANGE Eastern Gulf coast. HABITAT Wetlands: slow moving or stagnant freshwater rivers/streams/creeks and bogs, marshes, swamps, fens and peat lands. CONSERVATION STATUS IUCN: Near Threatened (2016). Population Trend: Decreasing. Because of the limited extent of its occurrence and because of the declining extent and quality of its habitat, this species is close to qualifying for Vulnerable. COOL FACTS Amphiumas are commonly known as "Congo eels," a misnomer. First of all, amphiumas are amphibians, rather than fish (which eels are). This notwithstanding, amphiumas bear resemblance to the elongate fishes. It is easy to overlook the diminutive legs, and the lack of any external gills adds to the similarity between the amphiumas and eels. Amphiumas are adapted for digging and tunneling. They seem to spend most of the time in muddy burrows and are rarely observed in the wild. They never fully metamorphose and retain larval characteristics in varying degrees into adulthood: one pair of the larval gill slits is retained and never disappears, no eyelids, no tongue and the presence of 4 gill arches with a single respiratory opening between the 3 rd--4th arches. Amphiumas have two pairs of limbs, and the three species, all of which occur in the S.E. U.S, differ in regard to the number of toes at the ends of these limbs: one, two or three. These amphiumas possess tiny, single-toed limbs, one pair just behind the small gill opening at each side of the neck and another pair just ahead of the longitudinal anal slit .
    [Show full text]
  • AMPHIBIANS of OHIO F I E L D G U I D E DIVISION of WILDLIFE INTRODUCTION
    AMPHIBIANS OF OHIO f i e l d g u i d e DIVISION OF WILDLIFE INTRODUCTION Amphibians are typically shy, secre- Unlike reptiles, their skin is not scaly. Amphibian eggs must remain moist if tive animals. While a few amphibians Nor do they have claws on their toes. they are to hatch. The eggs do not have are relatively large, most are small, deli- Most amphibians prefer to come out at shells but rather are covered with a jelly- cately attractive, and brightly colored. night. like substance. Amphibians lay eggs sin- That some of these more vulnerable spe- gly, in masses, or in strings in the water The young undergo what is known cies survive at all is cause for wonder. or in some other moist place. as metamorphosis. They pass through Nearly 200 million years ago, amphib- a larval, usually aquatic, stage before As with all Ohio wildlife, the only ians were the first creatures to emerge drastically changing form and becoming real threat to their continued existence from the seas to begin life on land. The adults. is habitat degradation and destruction. term amphibian comes from the Greek Only by conserving suitable habitat to- Ohio is fortunate in having many spe- amphi, which means dual, and bios, day will we enable future generations to cies of amphibians. Although generally meaning life. While it is true that many study and enjoy Ohio’s amphibians. inconspicuous most of the year, during amphibians live a double life — spend- the breeding season, especially follow- ing part of their lives in water and the ing a warm, early spring rain, amphib- rest on land — some never go into the ians appear in great numbers seemingly water and others never leave it.
    [Show full text]
  • Distribution and Conservation Genetics of the Cow Knob Salamander, Plethodon Punctatus Highton (Caudata: Plethodontidae)
    Distribution and Conservation Genetics of the Cow Knob Salamander, Plethodon punctatus Highton (Caudata: Plethodontidae) Thesis submitted to The Graduate College of Marshall University In partial fulfillment of the Requirements for the degree Master of Science Biological Sciences by Matthew R. Graham Thomas K. Pauley, Committee Chairman Victor Fet, Committee Member Guo-Zhang Zhu, Committee Member April 29, 2007 ii Distribution and Conservation Genetics of the Cow Knob Salamander, Plethodon punctatus Highton (Caudata: Plethodontidae) MATTHEW R. GRAHAM Department of Biological Sciences, Marshall University Huntington, West Virginia 25755-2510, USA email: [email protected] Summary Being lungless, plethodontid salamanders respire through their skin and are especially sensitive to environmental disturbances. Habitat fragmentation, low abundance, extreme habitat requirements, and a narrow distribution of less than 70 miles in length, makes one such salamander, Plethodon punctatus, a species of concern (S1) in West Virginia. To better understand this sensitive species, day and night survey hikes were conducted through ideal habitat and coordinate data as well as tail tips (10 to 20 mm in length) were collected. DNA was extracted from the tail tips and polymerase chain reaction (PCR) was used to amplify mitochondrial 16S rRNA gene fragments. Maximum parsimony, neighbor-joining, and UPGMA algorithms were used to produce phylogenetic haplotype trees, rooted with P. wehrlei. Based on our DNA sequence data, four disparate management units are designated. Surveys revealed new records on Jack Mountain, a disjunct population that expands the known distribution of the species 10 miles west. In addition, surveys by Flint verified a population on Nathaniel Mountain, WV and revealed new records on Elliot Knob, extending the known range several miles south.
    [Show full text]
  • TRAPPING SUCCESS and POPULATION ANALYSIS of Siren Lacertina and Amphiuma Means
    TRAPPING SUCCESS AND POPULATION ANALYSIS OF Siren lacertina AND Amphiuma means By KRISTINA SORENSEN A THESIS PRESENTED TO THE GRADUATE SCHOOL OF THE UNIVERSITY OF FLORIDA IN PARTIAL FULFILLMENT OF THE REQUIREMENTS FOR THE DEGREE OF MASTER OF SCIENCE UNIVERSITY OF FLORIDA 2003 ACKNOWLEDGMENTS I thank my committee members Lora Smith, Franklin Percival, and Dick Franz for all their support and advice. The Department of Interior's Student Career Experience Program and the U.S. Geological Survey's Amphibian Research and Monitoring Initiative provided funding for this project. I thank those involved with these programs who have helped me over the last three years: David Trauger, Ken Dodd, Jamie Barichivich, Jennifer Staiger, Kevin Smith, and Steve Johnson. Numerous people helped with field work: Audrey Owens, Maya Zacharow, Chris Gregory, Matt Chopp, Amanda Rice, Paul Loud, Travis Tuten, Steve Johnson, and Jennifer Staiger, Lora Smith, and the UF Wildlife Field Techniques Courses of2001-2002. Paul Moler and John Jensen provided advice and shared their wealth of herpetological knowledge. I thank the staff of Okefenokee National Wildlife Refuge and Steve Coates, manager of the Ordway Preserve, for their assistance on numerous occasions and for permission to conduct research on their property. Marinela Capanu of the IFAS Statistical Consulting Unit assisted with statistical analysis. Julien Martin, Bob Dorazio, Rob Bennets, and Cathy Langtimm provided advice on population analysis. I also thank the administrative staff of the Florida Caribbean Science Center and the Florida Cooperative Fish and Wildlife Research Unit. I am much indebted to all of these people, without whom this thesis would not have been possible.
    [Show full text]
  • The Salamanders of Tennessee
    Salamanders of Tennessee: modified from Lisa Powers tnwildlife.org Follow links to Nongame The Salamanders of Tennessee Photo by John White Salamanders are the group of tailed, vertebrate animals that along with frogs and caecilians make up the class Amphibia. Salamanders are ectothermic (cold-blooded), have smooth glandular skin, lack claws and must have a moist environment in which to live. 1 Amphibian Declines Worldwide, over 200 amphibian species have experienced recent population declines. Scientists have reports of 32 species First discovered in 1967, the golden extinctions, toad, Bufo periglenes, was last seen mainly species of in 1987. frogs. Much attention has been given to the Anurans (frogs) in recent years, however salamander populations have been poorly monitored. Photo by Henk Wallays Fire Salamander - Salamandra salamandra terrestris 2 Why The Concern For Salamanders in Tennessee? Their key role and high densities in many forests The stability in their counts and populations Their vulnerability to air and water pollution Their sensitivity as a measure of change The threatened and endangered status of several species Their inherent beauty and appeal as a creature to study and conserve. *Possible Factors Influencing Declines Around the World Climate Change Habitat Modification Habitat Fragmentation Introduced Species UV-B Radiation Chemical Contaminants Disease Trade in Amphibians as Pets *Often declines are caused by a combination of factors and do not have a single cause. Major Causes for Declines in Tennessee Habitat Modification -The destruction of natural habitats is undoubtedly the biggest threat facing amphibians in Tennessee. Housing, shopping center, industrial and highway construction are all increasing throughout the state and consequently decreasing the amount of available habitat for amphibians.
    [Show full text]
  • I Online Supplementary Data – Sexual Size Dimorphism in Salamanders
    Online Supplementary data – Sexual size dimorphism in salamanders Supplementary data S1. Species data used in this study and references list. Males Females SSD Significant test Ref Species n SVL±SD n SVL±SD Andrias davidianus 2 532.5 8 383.0 -0.280 12 Cryptobranchus alleganiensis 53 277.4±5.2 52 300.9±3.4 0.084 Yes 61 Batrachuperus karlschmidti 10 80.0 10 84.8 0.060 26 Batrachuperus londongensis 20 98.6 10 96.7 -0.019 12 Batrachuperus pinchonii 5 69.6 5 74.6 0.070 26 Batrachuperus taibaiensis 11 92.9±12.1 9 102.1±7.1 0.099 Yes 27 Batrachuperus tibetanus 10 94.5 10 92.8 -0.017 12 Batrachuperus yenyuadensis 10 82.8 10 74.8 -0.096 26 Hynobius abei 24 57.8±2.1 34 55.0±1.2 -0.048 Yes 92 Hynobius amakusaensis 22 75.4±4.8 12 76.5±3.6 0.014 No 93 Hynobius arisanensis 72 54.3±4.8 40 55.2±4.8 0.016 No 94 Hynobius boulengeri 37 83.0±5.4 15 91.5±3.8 0.102 Yes 95 Hynobius formosanus 15 53.0±4.4 8 52.4±3.9 -0.011 No 94 Hynobius fuca 4 50.9±2.8 3 52.8±2.0 0.037 No 94 Hynobius glacialis 12 63.1±4.7 11 58.9±5.2 -0.066 No 94 Hynobius hidamontanus 39 47.7±1.0 15 51.3±1.2 0.075 Yes 96 Hynobius katoi 12 58.4±3.3 10 62.7±1.6 0.073 Yes 97 Hynobius kimurae 20 63.0±1.5 15 72.7±2.0 0.153 Yes 98 Hynobius leechii 70 61.6±4.5 18 66.5±5.9 0.079 Yes 99 Hynobius lichenatus 37 58.5±1.9 2 53.8 -0.080 100 Hynobius maoershanensis 4 86.1 2 80.1 -0.069 101 Hynobius naevius 72.1 76.7 0.063 102 Hynobius nebulosus 14 48.3±2.9 12 50.4±2.1 0.043 Yes 96 Hynobius osumiensis 9 68.4±3.1 15 70.2±3.0 0.026 No 103 Hynobius quelpaertensis 41 52.5±3.8 4 61.3±4.1 0.167 Yes 104 Hynobius
    [Show full text]
  • Amphibian and Reptile Checklist
    KEY TO ABBREVIATIONS ___ Eastern Rat Snake (Pantherophis alleghaniensis) – BLUE RIDGE (NC‐C, VA‐C) Habitat: Varies from rocky timbered hillsides to flat farmland. The following codes refer to an animal’s abundance in ___ Eastern Hog‐nosed Snake (Heterodon platirhinos) – PARKWAY suitable habitat along the parkway, not the likelihood of (NC‐R, VA‐U) Habitat: Sandy or friable loam soil seeing it. Information on the abundance of each species habitats at lower elevation. AMPHIBIAN & comes from wildlife sightings reported by park staff and ___ Eastern Kingsnake (Lampropeltis getula) – (NC‐U, visitors, from other agencies, and from park research VA‐U) Habitat: Generalist at low elevations. reports. ___ Northern Mole Snake (Lampropeltis calligaster REPTILE C – COMMON rhombomaculata) – (VA‐R) Habitat: Mixed pine U – UNCOMMON forests and open fields under logs or boards. CHECKLIST R – RARE ___ Eastern Milk Snake (Lampropeltis triangulum) – (NC‐ U, VA‐U) Habitat: Woodlands, grassy balds, and * – LISTED – Any species federally or state listed as meadows. Endangered, Threatened, or of Special Concern. ___ Northern Water Snake (Nerodia sipedon sipedon) – (NC‐C, VA‐C) Habitat: Wetlands, streams, and lakes. Non‐native – species not historically present on the ___ Rough Green Snake (Opheodrys aestivus) – (NC‐R, parkway that have been introduced (usually by humans.) VA‐R) Habitat: Low elevation forests. ___ Smooth Green Snake (Opheodrys vernalis) – (VA‐R) NC – NORTH CAROLINA Habitat: Moist, open woodlands or herbaceous Blue Ridge Red Cope's Gray wetlands under fallen debris. Salamander Treefrog VA – VIRGINIA ___ Northern Pine Snake (Pituophis melanoleucus melanoleucus) – (VA‐R) Habitat: Abandoned fields If you see anything unusual while on the parkway, please and dry mountain ridges with sandier soils.
    [Show full text]
  • Influence of Climate Change and Prescribed Fire on Habitat Suitability and Abundance of the High-Elevation Endemic Cow Knob Salamander (Plethodon Punctatus)
    Graduate Theses, Dissertations, and Problem Reports 2019 Influence of climate change and prescribed fire on habitat suitability and abundance of the high-elevation endemic Cow Knob Salamander (Plethodon punctatus) Carl David Jacobsen [email protected] Follow this and additional works at: https://researchrepository.wvu.edu/etd Part of the Biology Commons, Forest Management Commons, Population Biology Commons, and the Terrestrial and Aquatic Ecology Commons Recommended Citation Jacobsen, Carl David, "Influence of climate change and prescribed fire on habitat suitability and abundance of the high-elevation endemic Cow Knob Salamander (Plethodon punctatus)" (2019). Graduate Theses, Dissertations, and Problem Reports. 4051. https://researchrepository.wvu.edu/etd/4051 This Thesis is protected by copyright and/or related rights. It has been brought to you by the The Research Repository @ WVU with permission from the rights-holder(s). You are free to use this Thesis in any way that is permitted by the copyright and related rights legislation that applies to your use. For other uses you must obtain permission from the rights-holder(s) directly, unless additional rights are indicated by a Creative Commons license in the record and/ or on the work itself. This Thesis has been accepted for inclusion in WVU Graduate Theses, Dissertations, and Problem Reports collection by an authorized administrator of The Research Repository @ WVU. For more information, please contact [email protected]. Influence of climate change and prescribed fire on habitat suitability and abundance of the high-elevation endemic Cow Knob Salamander (Plethodon punctatus) Carl D. Jacobsen Thesis submitted to the Davis College of Agriculture, Natural Resources, and Design At West Virginia University in partial fulfillment of the requirements for the degree of Master of Science in Wildlife and Fisheries Resources Donald J.
    [Show full text]
  • Amphiumidae Cryptobranchidae Proteidae
    Amphiumidae Amphiuma means – Two-toed Amphiuma cryptobranchidae Cryptobranchus alleganiensis – Hellbender Proteidae Necturus maculosus – Mudpuppy Sirenidae Siren intermedia – Lesser Siren Ambystomatidae Ambystoma gracile – Northwestern Salamander Ambystoma tigrinum – Tiger Salamander Ambystoma macrodactylum – Long-toed Salamander Ambystoma californiense – California Tiger Salamander Dicamptodontidae Dicamptodon ensatus – California Giant Salamander Dicamptodon tenebrosus – Pacific Giant Salamander Rhyacotritonidae Rhyacotriton variegatus – Southern Torrent Salamander Salamandridae Taricha torosa – California Newt Taricha Sierrae – Sierra Newt Taricha rivularis – Red-bellied Newt Taricha granulosa – Rough-skinned Newt Plethodontidae Aneides flavipunctatus – Black Salamander Aneides vagrans – Wandering Salamander Aneides ferreus – Clouded Salamander Aneides lugubris – Arboreal Salamander Plethodontidae Ensatina eschscholtzii – Ensatina Plethodontidae Batrachoseps attenuatus – California Slender Salamander Batrachoseps gavilanensis – Gabilan Mountains Slender Salamander Plethodontidae Plethodon dunni – Dunn’s Salamander Plethodon stormi – Siskiyou Mountains Salamander Plethodon elongatus – Del Norte Salamander Plethodon asupak – Scott Bar Salamander Plethodontidae Hydromantes brunus – Limestone Salamander Hydromantes platycephalus – Mount Lyell Salamander Hydromantes shastae – Shasta Salamander Ascaphidae Ascaphus truei – Tailed Frog Pelobatidae Spea hammondii – Western Spadefoot Spea intermontana – Great Basin Spadefoot Scaphiopus couchi
    [Show full text]
  • PRE-SITE Activity SALAMANDER INFORMATION
    EFFECTS OF ACID DEPOSITION Pre-Site Activity SALAMANDER SAlAmAnder informAtion MONITORING Objectives: 1) use the scientific method while Grade Level: High School •Biological Monitoring: a studying biodiversity technique used by scientists to 2) describe the steps in scientific check the condition of a par- Science inquiry Subject Area: ticular species or ecosystem 3) learn the identifying character- over time. istics between different species of Activity time: 60 minutes •Canopy: the top layer of the salamanders forest, the treetops. 4) understand the biodiversity of Setting: Classroom the Great Smoky Mountains Na- •Density: the number of tional Park Skills: Analyzing, Classifying, individuals of a given species 5) recognize the threats to aquatic Collecting information, Con- within a certain area. and terrestrial salamanders necting, Contrasting, Formu- lating questions, Interpreting, •Dichotomous Key: an iden- Background: Researching tification method that narrows When students visit the Smok- down a species in question us- ies on their field trip one group ing a series of pairs of choices. will be collecting data as part of a Vocabulary: Salamander study. This lesson will •All Taxa Biodiversity Inven- •Ecosystem: a system formed introduce the scientific method tory: also called the ATBI. A by the interaction of groups of and use the identifying anatomical research project in the Great organisms with each other and characteristics to key different spe- Smoky Mountains National their environment. cies of salamanders. Park to inventory every life form in the park. It is estimated that •Hypothesis: a proposition To be a scientist you don’t neces- we currently know only 14,000 based on assumptions that can sarily have to have an advanced of an estimated 100,000 species.
    [Show full text]