Crustacean Zooplankton Species Richness in 66 North American Lakes

Data from 66 North American lakes were collected to construct a model for predicting the number of crustacean zooplankton species expected in a lake. The chosen lakes have a range from 4 sq m to 80 x 10**9 sq m surface area, range from ultra-oligotrophic to hypereutrophic, and have zooplankton speci...

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Bibliographic Details
Format: Dataset
Language:unknown
Published: North Temperate Lakes LTERCenter for Limnology680 N Park StMadisonWI53706-1492USA608-262-2573608-265-2340infomgr@lter.limnology.wisc.edu 2011
Subjects:
conductance
conductivity
primary production
lake density
zooplankton
species richness
North Temperate Lakes - LTER
Canada
Great Slave Lake
Ela
Crater Lake
Dodson
Rock Lake
Gull Lake
Lawrence Lake
Stock Pond
Bog Lake
Clear Lake
Online Access:http://hdl.handle.net/10255/dryad.13805
http://metacat.lternet.edu/knb/metacat/knb-lter-ntl.223.6/xml
id ftdryad:oai:v1.datadryad.org:10255/dryad.13805
record_format openpolar
spelling ftdryad:oai:v1.datadryad.org:10255/dryad.13805 2023-05-15T16:23:07+02:00 Crustacean Zooplankton Species Richness in 66 North American Lakes Imikpuk Lake,AK,USA,NARL IBP A+B,AK,USA,NARL IBP C,AK,USA,NARL IBP D,AK,USA,Toolik Lake,AK,USA,Clear Lake,CA,USA,Miramar 1 Lake,CA,USA,Reissen Lake,CA,USA,Tu-Vu Lake,CA,USA,Lake Tahoe,CA/NV,USA,Leechmere Lake,CO,USA,Long Lake Lake,CO,USA,Mexican Cut L1,CO,USA,Mexican Cut L12,CO,USA,Mexican Cut L8,CO,USA,Linsley Lake,CT,USA,Thonotosassa Lake,FL,USA,Oglethorp Lake,GA,USA,Dynamite Lake,IL,USA,Miller Wds. Lake,IL,USA,Frains Lake,MI,USA,Gull Lake,MI,USA,Lawrence Lake,MI,USA,Peter Lake,MI,USA,Pond II Lake,MI,USA,Tuesday Bog Lake,MI,USA,Wintergreen Lake,MI,USA,Mirror Lake,NH,USA,Cornell 209 Lake,NY,USA,Cornell 246 Lake,NY,USA,Oneida Lake,NY,USA,Texoma Lake,OK/TX,USA,Crater Lake,OR,USA,Hellertown Lake,PA,USA,Lacawac Lake,PA,USA,Bullhead Lake,RI,USA,Little Bullhead Lake,RI,USA,Dubinkey Lake,UT,USA,Utah Rock Pool AA1,UT,USA,Utah Rock Pool G5A,UT,USA,Utah Stock Pond C9,UT,USA,Lake Washington,WA,USA,Bavarian Sauage Pond,WI,USA,Crystal Lake,WI,USA,Dead Dog Pond,WI,USA,Lake Mendota,WI,USA,Lake Wingra,WI,USA,Little Rock Lake,WI,USA,Martin Lake,WI,USA,Plagge Lake,WI,USA,Sparkling Lake,WI,USA,Tower Lake,WI,USA,Trout Lake,WI,USA,Lake Michigan,WI/MI,USA,Lake Erie,MI/OH/PA/NY/ON,USA/Canada,Lake Superior,MN/WI/ON,USA/Canada,Memphremagog Lake,VT/QC,USA/Canada,Eunice Lake,BC,Canada,Gwendoline Lake,BC,Canada,Marion Lake,BC,Canada,Lake Winnipeg,MB,Canada,Manitoba 885 Lake,MB,Canada,Great Slave Lake,NT,Canada,Char Lake,NU,Canada,ELA Lake 223 Lake,ON,Canada,Kendal II Lake,ON,Canada,Lake St. George,ON,Canada,La Caldera,SPAIN,Tjeukemeer Lake,The Netherlands -156.7 W 5.8 E 74.8 N 28 S 1992-01-01 to 1993-01-01 2011-04-21T17:32:33Z text/plain http://hdl.handle.net/10255/dryad.13805 http://metacat.lternet.edu/knb/metacat/knb-lter-ntl.223.6/xml unknown North Temperate Lakes LTERCenter for Limnology680 N Park StMadisonWI53706-1492USA608-262-2573608-265-2340infomgr@lter.limnology.wisc.edu http://metacat.lternet.edu/knb/metacat/knb-lter-ntl.223.6/xml knb-lter-ntl.223.6 http://hdl.handle.net/10255/dryad.13805 conductance conductivity primary production lake density zooplankton species richness North Temperate Lakes - LTER dataset 2011 ftdryad 2020-01-01T14:29:58Z Data from 66 North American lakes were collected to construct a model for predicting the number of crustacean zooplankton species expected in a lake. The chosen lakes have a range from 4 sq m to 80 x 10**9 sq m surface area, range from ultra-oligotrophic to hypereutrophic, and have zooplankton species lists based of several years of observation The number of crustacean zooplankton species in a lake is significantly correlated with lake size, average rate of photosynthesis (parabolic function) and the number of lakes within 20 km. A multiple linear regression model, using these three independent variables, explains approximately 75% of the variation in log species richness. Prediction of species richness is not enhanced by the knowledge of lake depth, salinity, elevation, latitude, longitude, or distance to nearest lake. The North American species area curve is statistically different from and steeper than the corresponding European curve.Dodson, S. 1992. Predicting Crustacean Zooplankton Species Richness. Limnology and Oceanography 37:848-856.http://lter.limnology.wisc.edu/dodson/NA92-SID.DOC - Supplementary Material - Data base and literature for Dodson, S. 1992. Number of sites: 69 Dataset Great Slave Lake Dryad Digital Repository (Duke University) Canada Great Slave Lake ENVELOPE(-114.001,-114.001,61.500,61.500) Ela ENVELOPE(9.642,9.642,63.170,63.170) Crater Lake ENVELOPE(-60.667,-60.667,-62.983,-62.983) Dodson ENVELOPE(-62.750,-62.750,-75.767,-75.767) Rock Lake ENVELOPE(-97.673,-97.673,56.144,56.144) Gull Lake ENVELOPE(-36.517,-36.517,-54.283,-54.283) Lawrence Lake ENVELOPE(-105.767,-105.767,57.483,57.483) Stock Pond ENVELOPE(-55.706,-55.706,51.443,51.443) Bog Lake ENVELOPE(-100.523,-100.523,56.797,56.797) Clear Lake ENVELOPE(-112.122,-112.122,57.734,57.734)
institution Open Polar
collection Dryad Digital Repository (Duke University)
op_collection_id ftdryad
language unknown
topic conductance
conductivity
primary production
lake density
zooplankton
species richness
North Temperate Lakes - LTER
spellingShingle conductance
conductivity
primary production
lake density
zooplankton
species richness
North Temperate Lakes - LTER
Crustacean Zooplankton Species Richness in 66 North American Lakes
topic_facet conductance
conductivity
primary production
lake density
zooplankton
species richness
North Temperate Lakes - LTER
description Data from 66 North American lakes were collected to construct a model for predicting the number of crustacean zooplankton species expected in a lake. The chosen lakes have a range from 4 sq m to 80 x 10**9 sq m surface area, range from ultra-oligotrophic to hypereutrophic, and have zooplankton species lists based of several years of observation The number of crustacean zooplankton species in a lake is significantly correlated with lake size, average rate of photosynthesis (parabolic function) and the number of lakes within 20 km. A multiple linear regression model, using these three independent variables, explains approximately 75% of the variation in log species richness. Prediction of species richness is not enhanced by the knowledge of lake depth, salinity, elevation, latitude, longitude, or distance to nearest lake. The North American species area curve is statistically different from and steeper than the corresponding European curve.Dodson, S. 1992. Predicting Crustacean Zooplankton Species Richness. Limnology and Oceanography 37:848-856.http://lter.limnology.wisc.edu/dodson/NA92-SID.DOC - Supplementary Material - Data base and literature for Dodson, S. 1992. Number of sites: 69
format Dataset
title Crustacean Zooplankton Species Richness in 66 North American Lakes
title_short Crustacean Zooplankton Species Richness in 66 North American Lakes
title_full Crustacean Zooplankton Species Richness in 66 North American Lakes
title_fullStr Crustacean Zooplankton Species Richness in 66 North American Lakes
title_full_unstemmed Crustacean Zooplankton Species Richness in 66 North American Lakes
title_sort crustacean zooplankton species richness in 66 north american lakes
publisher North Temperate Lakes LTERCenter for Limnology680 N Park StMadisonWI53706-1492USA608-262-2573608-265-2340infomgr@lter.limnology.wisc.edu
publishDate 2011
url http://hdl.handle.net/10255/dryad.13805
http://metacat.lternet.edu/knb/metacat/knb-lter-ntl.223.6/xml
op_coverage Imikpuk Lake,AK,USA,NARL IBP A+B,AK,USA,NARL IBP C,AK,USA,NARL IBP D,AK,USA,Toolik Lake,AK,USA,Clear Lake,CA,USA,Miramar 1 Lake,CA,USA,Reissen Lake,CA,USA,Tu-Vu Lake,CA,USA,Lake Tahoe,CA/NV,USA,Leechmere Lake,CO,USA,Long Lake Lake,CO,USA,Mexican Cut L1,CO,USA,Mexican Cut L12,CO,USA,Mexican Cut L8,CO,USA,Linsley Lake,CT,USA,Thonotosassa Lake,FL,USA,Oglethorp Lake,GA,USA,Dynamite Lake,IL,USA,Miller Wds. Lake,IL,USA,Frains Lake,MI,USA,Gull Lake,MI,USA,Lawrence Lake,MI,USA,Peter Lake,MI,USA,Pond II Lake,MI,USA,Tuesday Bog Lake,MI,USA,Wintergreen Lake,MI,USA,Mirror Lake,NH,USA,Cornell 209 Lake,NY,USA,Cornell 246 Lake,NY,USA,Oneida Lake,NY,USA,Texoma Lake,OK/TX,USA,Crater Lake,OR,USA,Hellertown Lake,PA,USA,Lacawac Lake,PA,USA,Bullhead Lake,RI,USA,Little Bullhead Lake,RI,USA,Dubinkey Lake,UT,USA,Utah Rock Pool AA1,UT,USA,Utah Rock Pool G5A,UT,USA,Utah Stock Pond C9,UT,USA,Lake Washington,WA,USA,Bavarian Sauage Pond,WI,USA,Crystal Lake,WI,USA,Dead Dog Pond,WI,USA,Lake Mendota,WI,USA,Lake Wingra,WI,USA,Little Rock Lake,WI,USA,Martin Lake,WI,USA,Plagge Lake,WI,USA,Sparkling Lake,WI,USA,Tower Lake,WI,USA,Trout Lake,WI,USA,Lake Michigan,WI/MI,USA,Lake Erie,MI/OH/PA/NY/ON,USA/Canada,Lake Superior,MN/WI/ON,USA/Canada,Memphremagog Lake,VT/QC,USA/Canada,Eunice Lake,BC,Canada,Gwendoline Lake,BC,Canada,Marion Lake,BC,Canada,Lake Winnipeg,MB,Canada,Manitoba 885 Lake,MB,Canada,Great Slave Lake,NT,Canada,Char Lake,NU,Canada,ELA Lake 223 Lake,ON,Canada,Kendal II Lake,ON,Canada,Lake St. George,ON,Canada,La Caldera,SPAIN,Tjeukemeer Lake,The Netherlands
-156.7 W 5.8 E 74.8 N 28 S
1992-01-01 to 1993-01-01
long_lat ENVELOPE(-114.001,-114.001,61.500,61.500)
ENVELOPE(9.642,9.642,63.170,63.170)
ENVELOPE(-60.667,-60.667,-62.983,-62.983)
ENVELOPE(-62.750,-62.750,-75.767,-75.767)
ENVELOPE(-97.673,-97.673,56.144,56.144)
ENVELOPE(-36.517,-36.517,-54.283,-54.283)
ENVELOPE(-105.767,-105.767,57.483,57.483)
ENVELOPE(-55.706,-55.706,51.443,51.443)
ENVELOPE(-100.523,-100.523,56.797,56.797)
ENVELOPE(-112.122,-112.122,57.734,57.734)
geographic Canada
Great Slave Lake
Ela
Crater Lake
Dodson
Rock Lake
Gull Lake
Lawrence Lake
Stock Pond
Bog Lake
Clear Lake
geographic_facet Canada
Great Slave Lake
Ela
Crater Lake
Dodson
Rock Lake
Gull Lake
Lawrence Lake
Stock Pond
Bog Lake
Clear Lake
genre Great Slave Lake
genre_facet Great Slave Lake
op_relation http://metacat.lternet.edu/knb/metacat/knb-lter-ntl.223.6/xml
knb-lter-ntl.223.6
http://hdl.handle.net/10255/dryad.13805
_version_ 1766011295601000448

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