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Fig. Ap. 2.1. Denton Tending His Fairy Shrimp Collection
Fig. Ap. 2.1. Denton tending his fairy shrimp collection. 176 Appendix 1 Hatching and Rearing Back in the bowels of this book we noted that However, salts may leach from soils to ultimately if one takes dry soil samples from a pool basin, make the water salty, a situation which commonly preferably at its deepest point, one can then "just turns off hatching. Tap water is usually unsatis- add water and stir". In a day or two nauplii ap- factory, either because it has high TDS, or because pear if their cysts are present. O.K., so they won't it contains chlorine or chloramine, disinfectants always appear, but you get the idea. which may inhibit hatching or kill emerging If your desire is to hatch and rear fairy nauplii. shrimps the hi-tech way, you should get some As you have read time and again in Chapter 5, guidance from Brendonck et al. (1990) and temperature is an important environmental cue for Maeda-Martinez et al. (1995c). If you merely coaxing larvae from their dormant state. You can want to see what an anostracan is like, buy some guess what temperatures might need to be ap- Artemia cysts at the local aquarium shop and fol- proximated given the sample's origin. Try incu- low directions on the container. Should you wish bation at about 3-5°C if it came from the moun- to find out what's in your favorite pool, or gather tains or high desert. If from California grass- together sufficient animals for a study of behavior lands, 10° is a good level at which to start. -
Contributions
MILWAUKEE PUBLIC MUSEUM Contributions . In BIOLOGY and GEOLOGY Number 94 August 28, 2000 ATLAS AND BIBLIOGRAPHY OF THE FIRST STATE AND COUNTY RECORDS FOR ANOSTRACANS (CRUSTACEA:BRANCHIOPODA) OF THE CONTIGUOUS UNITED STATES Joan Jass Barbara Klausmeier MILWAUKEE PUBLIC MUSEUM Contrib utions . In BIOLOGY and GEOLOGY Number 94 August 28, 2000 ATLAS AND BIBLIOGRAPHY OF THE FIRST STATE AND COUNTY RECORDS FOR ANOSTRACANS (CRUSTACEA:BRANCHIOPODA) OF THE CONTIGUOUS UNITED STATES Joan Jass Barbara Klausmeier Department of Zoology Milwaukee Public Museum 800 West Wells Street Milwaukee, Wisconsin 53233 Milwaukee Public Museum Contributions in Biology and Geology Paul Mayer, Editor This publication is priced at $6.00 and may be obtained by writing to the Museum Shop, Milwaukee Public Museum, 800 West Wells Street, Milwaukee, WI 53233. Orders must include $3.00 for shipping and handling ($4.00 for foreign destinations) and must be accompanied by money order or check drawn on US. bank. Money orders or checks should be made payable to the Milwaukee Public Museum, Inc. Wisconsin residents please add 5% sales tax. ISBN 0-89326-207-2 ©2000 Milwaukee Public Museum, Inc. Sponsored by Milwaukee County ABSTRACT The literature for 43 anostracans from the United States (U.S.) is presented with an emphasis on the first records for the 48 contiguous states and their counties. The section Species Treatments gives these literature citations as well as published sources of illustra- tions. Although a number of genera such as Branchinecta continue to undergo active taxonomic scrutiny, with longstanding species being in the process of redefinition as new ones are discovered, only fully described species are treated here. -
Microsoft Outlook
Joey Steil From: Leslie Jordan <[email protected]> Sent: Tuesday, September 25, 2018 1:13 PM To: Angela Ruberto Subject: Potential Environmental Beneficial Users of Surface Water in Your GSA Attachments: Paso Basin - County of San Luis Obispo Groundwater Sustainabilit_detail.xls; Field_Descriptions.xlsx; Freshwater_Species_Data_Sources.xls; FW_Paper_PLOSONE.pdf; FW_Paper_PLOSONE_S1.pdf; FW_Paper_PLOSONE_S2.pdf; FW_Paper_PLOSONE_S3.pdf; FW_Paper_PLOSONE_S4.pdf CALIFORNIA WATER | GROUNDWATER To: GSAs We write to provide a starting point for addressing environmental beneficial users of surface water, as required under the Sustainable Groundwater Management Act (SGMA). SGMA seeks to achieve sustainability, which is defined as the absence of several undesirable results, including “depletions of interconnected surface water that have significant and unreasonable adverse impacts on beneficial users of surface water” (Water Code §10721). The Nature Conservancy (TNC) is a science-based, nonprofit organization with a mission to conserve the lands and waters on which all life depends. Like humans, plants and animals often rely on groundwater for survival, which is why TNC helped develop, and is now helping to implement, SGMA. Earlier this year, we launched the Groundwater Resource Hub, which is an online resource intended to help make it easier and cheaper to address environmental requirements under SGMA. As a first step in addressing when depletions might have an adverse impact, The Nature Conservancy recommends identifying the beneficial users of surface water, which include environmental users. This is a critical step, as it is impossible to define “significant and unreasonable adverse impacts” without knowing what is being impacted. To make this easy, we are providing this letter and the accompanying documents as the best available science on the freshwater species within the boundary of your groundwater sustainability agency (GSA). -
Branchiopoda: Anostraca) from the Baja California Peninsula: First Record of the Giant Fairy Shrimp B
JOURNAL OF CRUSTACEAN BIOLOGY, 35(3), 433-440, 2015 AREVIEWOFTHEBRANCHINECTA (BRANCHIOPODA: ANOSTRACA) FROM THE BAJA CALIFORNIA PENINSULA: FIRST RECORD OF THE GIANT FAIRY SHRIMP B. GIGAS LYNCH, 1937 FROM MEXICO Hortencia Obregón-Barboza 1, Gopal Murugan 1, Humberto García-Velazco 2, and Alejandro M. Maeda-Martínez 1,∗ 1 Centro de Investigaciones Biológicas del Noroeste, S. C., Instituto Politécnico Nacional 195, La Paz, Baja California Sur 23096, México 2 Centro de Bachillerato Tecnológico Agropecuario 198, Maneadero, 22900 Baja California, México ABSTRACT As a part of an ongoing research initiative on Sonoran Desert large branchiopod biodiversity, we conducted extensive field surveys along the Baja California Peninsula. We present here a taxonomic review of the genus Branchinecta on this peninsula. The results confirm the presence of B. lindahli Packard, 1883, B. mackini Dexter, 1956, and B. sandiegonensis Fugate, 1993, and provide the first Mexican records of the world’s largest anostracan B. gigas Lynch, 1937. The peninsular sites of the four Branchinecta represent the southernmost extent of their distribution. The giant fairy shrimp was discovered from two shallow temporary lakes located in the Valle de los Cirios. The large branchiopod species assemblage that occurs in these lakes is unique among the temporary wetlands of Mexico. These lakes, so far, are the only known habitats in Mexico where the tadpole shrimp Lepidurus lemmoni Holmes, 1894, and B. gigas occur. KEY WORDS: Anostraca, Baja California (Norte), Baja California Sur, distribution, Laguna Chapala, Laguna El Islote, Sonoran Desert DOI: 10.1163/1937240X-00002321 INTRODUCTION MATERIAL AND METHODS Field surveys were conducted across Baja California and Baja California Seven species of Branchinecta have been reported from Sur, the two states comprising the peninsula. -
The Watershed Connection What Is a Watershed?
7T The Watershed Connection What is a Watershed? A watershed is all the land connected by the fresh water flowing through it. Everybody lives in a watershed and everything we do takes place in a watershed. In Sacramento we live in the Sacramento River Watershed, the largest watershed in California. Northern California storms produce precipitation either in the form of rain or snow. The rain runs off the land in the Sacramento River Watershed. This is called runoff. The earth’s gravity pulls all runoff downhill into a branching network of streams or tributaries. Streams come in all sizes from small creeks to big rushing rivers. Each stream connects to a larger one until it reaches the biggest stream in the watershed. The Sacramento River is the biggest stream in the Sacramento River Watershed. It carries the runoff from the entire watershed toward the Pacific Ocean. Less than one percent of the earth’s water is freshwater; the rest is saltwater, ice caps, or glaciers. Only a small portion of the freshwater is available for use by people. Streams provide freshwater for many people in California. We could not survive without them or the clean, fresh water they collect from our watershed. When we take care to keep our streams clean and healthy, we are actually taking care of ourselves and every other living thing in the watershed. Clean water supports many more species (forms of life) than polluted water. In a watershed, everyone is someone’s downstream neighbor. People upstream of Sacramento send us their used water. Then we turn around and send our used water to people living downstream of us. -
Checklist of the Anostraca
Hydmbwlogia 298: 315-353, 1995. D. Belk, H. J. Dumont & G. Maier (eds). Studies on Large Branchiopod Biology and Aquaculture II. 315 ©1995 Kluwer Academic Publishers. Printed in Belgium. Checklist of the Anostraca Denton Belk^ & Jan Brtek^ ^ Biology Department, Our Lady of the Lake University of San Antonio, San Antonio, TX 78207-4666, USA ^Hornonitrianske Muzeum, Hlinkova 44, Prievidza 971 01, Slovakia Key words: Anostraca, checklist, distribution, nomenclature, nomina dubia, nomina nuda, types, type locality Abstract In this checklist, we number the named anostracan fauna of the world at 258 species and seven subspecies organized in 21 genera. The list contains all species described through 31 December 1993, and those new species names made available in previous pages of this volume. The most species rich genus is Streptocephalus with 58 described species level taxa. Chirocephalus with 43, Branchinecta 35, and Branchinella 33 occupy the next three places. With the exception of Branchipodopsis and Eubranchipus each having 16 species, all the other genera include less than 10 species each. The need for zoogeographic study of these animals is demonstrated by the fact that almost 25% of the named taxa are known only from their type localities. Introduction requirements of the International Code of Zoological Nomenclature for availability as species names. We present a complete listing of species in the crus This checklist recognizes 258 species and seven tacean order Anostraca as of 31 December 1993, and subspecies arranged in 21 genera; however, its authors those described in the preceding pages of this sympo disagree on the number of valid genera. The check sium volume. -
Cyst Bank Life-History Model for a Fairy Shrimp from Ephemeral Ponds
Freshwater Biology (2004) 49, 221–231 Cyst bank life-history model for a fairy shrimp from ephemeral ponds BONNIE J. RIPLEY, JANETTE HOLTZ AND MARIE A. SIMOVICH Biology Department, University of San Diego, Alcala Park, San Diego, CA, U.S.A. SUMMARY 1. Ephemeral wetland habitats provide a useful model system for studying how life- history patterns enable populations to persist despite high environmental variation. One important life-history trait of both plants and crustaceans in such habitats involves hatching/germination of only some of the eggs/seeds at any time. This bet-hedging leads to the development of a bank composed of dormant propagules of many ages. 2. The San Diego fairy shrimp, Branchinecta sandiegonensis (Crustacea: Anostraca), a dominant faunal element of ephemeral ponds in San Diego, California, is a suitable organism for studying the consequences of highly fluctuating environmental conditions. As a result of large-scale habitat loss, the species is also endangered, and this motivated our specific study towards understanding the hatching dynamics of its egg bank for planning conservation efforts such as pool restoration and re-creation. 3. We formulated a matrix population model using egg age within the bank to study the relationship between adult survival and reproduction, and survival in and hatching from the egg bank. As vital rates for fairy shrimp are only poorly known, we generated 48 matrices with parameters encompassing ranges of likely values for the vital rates of B. sandiegonensis. We calculated population growth rates and eigenvalue elasticities both for a static model and a model with periodic reproductive failure. -
Hatching Response to Temperature Along a Latitudinal Gradient by the Fairy Shrimp Branchinecta Lindahli (Crustacea; Branchiopoda; Anostraca) in Culture Conditions
J. Limnol., 2015; 74(1): 85-94 ORIGINAL ARTICLE DOI: 10.4081/jlimnol.2014.1036 Hatching response to temperature along a latitudinal gradient by the fairy shrimp Branchinecta lindahli (Crustacea; Branchiopoda; Anostraca) in culture conditions D. Christopher ROGERS1,2* 1Kansas Biological Survey and the Biodiversity Institute, Kansas University, Higuchi Hall, 2101 Constant Avenue, Lawrence, KS 66047-3759 USA; 2University of New England, Armidale, 2351, Australia *Corresponding author: [email protected] ABSTRACT Branchinecta lindahli is a broadly distributed fairy shrimp, reported from a range of temporary wetland habitat types in arid western North America. This species’ eggs hatch after the habitat dries, refills from seasonal rain, and receives a strong cold shock during the winter low temperatures. I studied phenotypic variation in temperature responses in cultures collected from four populations across 8° of latitude with low average temperatures ranging from -8 to 8°C. Time to maturation, mature body size and first clutch size decreased, as temperature increased, with only minor body size variability at mortality, regardless of culture origin. No variation in individual egg size was observed, demonstrating that body size is sacrificed to produce at least a few normal eggs during unfavourable years. Latitudinal variation in hatching temperature demonstrated a pattern of adaptive significance, with someonly overlap between regional temperature hatching cues. Phenotypic hatching temperature and growth rate responses may cause genetic segregation, selecting one cohort for warmer, dryer years and one cohort for cooler, wetter years. Drier year selected cohorts can exploit habitats that have shorter hydrope- riods even in wet years. This may lead to population specialisation and speciationuse by adapting to more extreme habitats. -
129640 NWS 84 1 Final.Indd
Blake R. Hossack1, U.S. Geological Survey, 790 East Beckwith Avenue, Missoula, Montana 59801 Robert L. Newell, Flathead Lake Biological Station, University of Montana, 32125 Bio Station Lane, Polson, Montana 59860 and D. Christopher Rogers, EcoAnalysts, Inc., P.O. Box 4098, Davis, California 95616 Branchiopods (Anostraca, Notostraca) from Protected Areas of Western Montana Introduction Study Area and Methods Fairy shrimp (order Anostraca) and tadpole shrimp Wetlands in Glacier NP have been surveyed for (order Notostraca), members of the crustacean amphibians since 1999 as part of a long-term class Branchiopoda, are important components of monitoring and research program by the U.S. many freshwater and saline wetlands (Dodson and Geological Survey (Corn et al. 2005). Glacier Frey 2001, Brendonk et al. 2008). These animals NP is a 4082 km2 reserve that forms part of the are especially common in seasonal wetlands, Glacier-Waterton International Peace Park along where populations are maintained by banks of the U.S.–Canada border. Elevations range from resting eggs that may remain dormant for decades approximately 950 m to 3190 m. Much of the park or longer (Brendonck 1996). Both orders are is characterized by U-shaped valleys that reflect distributed worldwide (Brendonk et al. 2008). Pleistocene glaciation (Carrara 1989). West of the Fairy shrimp are more prone to endemism, with Continental Divide, the park is dominated by a several species listed as threatened or endangered, moist Pacific maritime climate. East of the Divide, and new species are described frequently (e.g., continental-polar air masses result in a colder, Rogers 2006, Rogers et al. -
(Crustacea: Anostraca) Supports Peripatric Speciation and Complex Divergence Patterns
Zoological Studies 59:14 (2020) doi:10.6620/ZS.2020.59-14 Open Access Molecular Evaluation of the Fairy Shrimp Family Branchinectidae (Crustacea: Anostraca) Supports Peripatric Speciation and Complex Divergence Patterns D. Christopher Rogers1,* and Andres Aguilar2 1Kansas Biological Survey, Kansas University, Higuchi Hall, 2101 Constant Avenue, Lawrence, KS 66047-3759 USA. *Correspondence: E-mail: [email protected] (Rogers) 2Department of Biological Sciences, California State University, 5151 State University Drive Los Angeles, CA 90032 USA. E-mail: [email protected] (Aguilar) Received 13 August 2019 / Accepted 21 February 2020 / Published 28 April 2020 Communicated by Benny K.K. Chan The Branchinectidae is a diverse and widely distributed group of anostracans. The majority of work on the group has focused on the morphological delineation of taxa and biogeography. Here we present a molecular phylogeny for select members of the family to better understand the distribution of morphological variation among species, and test biogeographic models of speciation for the group. Although we conducted both molecular and morphological phylogenies for the Branchinectidae, the morphological analysis did not support our molecular phylogeny and it did not support previous species group concepts based on geography. Our molecular phylogenetic analysis suggests that the family may have originated in Eurasia and found support for numerous species groups. These phylogenetic groups assisted in delineating species groups that are all definable morphologically and/or ecologically. The peripatric speciation model was supported from our analysis, offering credence to previously published speciation models in anostracans. This suggests that these processes may be important in other Branchiopoda and should be rigorously evaluated when delineating species. -
Fairy Shrimps
Fairy Shrimps of California's Puddles, Pools, and Playas by Clyde Eriksen and Denton Belk The 25 fairy shrimps found in California Artemia franciscana Kellogg, 1906 San Francisco brine shrimp Artemia monica Verrill, 1869 Mono Lake brine shrimp Branchinecta campestris Lynch, 1960 pocketed pouch fairy shrimp Branchinecta coloradensis Packard, 1874 Colorado fairy shrimp Branchinecta conservatio Eng, Belk, & Eriksen, 1990 Conservancy fairy shrimp Branchinecta dissimilis Lynch, 1972 dissimilar fairy shrimp Branchinecta gigas Lynch, 1937 giant fairy shrimp Branchinecta lindahli Packard, 1883 versatile fairy shrimp Branchinecta longiantenna Eng, Belk, & Eriksen, 1990 longhorn fairy shrimp Branchinecta lynchi Eng, Belk, & Eriksen, 1990 vernal pool fairy shrimp Branchinecta mackini Dexter, 1956 alkali fairy shrimp Branchinecta sandiegonensis Fugate, 1993 San Diego fairy shrimp Branchinecta sp. - 1 midvalley fairy shrimp Branchinecta sp. - 2 winter fairy shrimp Branchinecta sp. - 3 mountain fairy shrimp Eubranchipus bundyi Forbes, 1876 knobbedlip fairy shrimp Eubranchipus oregonus Creaser, 1930 Oregon fairy shrimp Eubranchipus serratus Forbes, 1876 ethologist fairy shrimp Linderiella occidentalis (Dodds, 1923) California fairy shrimp Linderiella santarosae Thiery & Fugate, 1994 Santa Rosa Plateau fairy shrimp Streptocephalus dorothae Mackin, 1942 New Mexico fairy shrimp Streptocephalus sealii Ryder, 1879 spinytail fairy shrimp Streptocephalus texanus Packard, 1871 Great Plains fairy shrimp Streptocephalus woottoni Eng, Belk, & Eriksen, 1990 Riverside fairy shrimp Thamnocephalus platyurus Packard, 1879 beavertail fairy shrimp FAIRY SHRIMPS OF CALIFORNIA'S PUDDLES, POOLS, AND PLAYAS by Clyde H. Eriksen and Denton Belk art work by Ina Rae Lengyel cover and maps by Jones & Stokes Associates, Inc. ©1999 Clyde H. Eriksen and Denton Belk Published by Mad River Press, Inc. Printed by Eureka Printing Company, Inc. -
Ch 21 Crustacea.Pdf
rustaceansare one of the most popular invertebrate groups, even amongnonbiologists, for they include someof the world's most delec- table gourmet fare,such as lobsters,crabs, and shrimps (Figure 21.1). There are an estimated 70,000described living speciesof Crustacea,and probably five or ten times that number waiting to be discovered and named. They exhibit an incredible diversity of form, habit, and size. The smallest known crustaceans are less than 100 pm in length and live on the antennules of cope- pods. The largest are Japanesespider crabs (Macrocheiraknempferi),withleg spans of 4m, and giant Tasmanian crabs (Pseudocarcinusgigas) with carapace widths of 46 cm. The heaviest crustaceans are probablv American lobsters (Homarus americanus),which, before the present era of overfishing, attained weights in excessof 20 kilograms. The world's largest land arthropod by weight (and possibly the largest land invertebrate) is the coconut crab (Birgus latro), Classificationof The Animal weighing in at up to 4 kg. Crustaceans are found Kingdom(Metazoa) at all depths in every marine, brackislu and fresh- water envfuonment on Earth, including in pools at Non-Bilateria* Lophophorata 6,000m elevation (fairy shrimp and cladocerans in (a.k.a. the diploblasts) PHYLUM PHORONIDA northem Chile). Afew have become PHYLUM PORIFERA PHYLUM BRYOZOA successful on PHYLUM PLACOZOA PHYLUM BRACHIOPODA. land, the mostnotablebeing sowbugs and pillbugs I PHYLUM CNIDARIA EcpYsozoA (the terrestrial isopods). PHYLUM CTENOPHORA Nematoida Crustaceans are commonly the dominant or- PHYLUM NEMATODA Bilateria ganisms in aquatic subterranean ecosystems, and PHYLUM NEMATOMORPHA (a.k.a.the triploblasts) new species of these stygobionts continue to be Scalidophora PHYLUM XENACOELOMORPHA discovered as new caves are explored.