Version 5 Tree Atlas


Diospyros texana

Texas persimmon

noelev

Diospyros texana Occurrence Sites

Environmental Variables Included
Order of Importance of Environmental Variables for Diospyros texana

USDA Plants Database entry for Diospyros texana
Silvics Manual entry for Diospyros texana


Click on any map to enlarge

SynonymsFIA PlotsGBIF SitesOther SitesOther TypesTotal SitesNotes
9221113range is well-represented

Occurrence Locations and Hargrove's Present Suitable Range Outline
Diospyros_texana_final Occurrences
Hargroves Present Suitable Range Outline for Diospyros_texana_final
Diospyros texana - Occurrence Locations Diospyros texana - Hargrove's Present Suitable Range Outline
Present Conditions
Diospyros_texana_final.2.conus
Diospyros_texana_final.2.global
Diospyros texana - CONUS
Compare with Current Range from the Silvics Manual for Diospyros texana
Compare with Current Range from Biota of North America Program (BONAP) for Diospyros texana

Diospyros texana not modeled by Iverson and Prasad
Diospyros texana not modeled by Crookston and Rehfeldt
Diospyros texana not modeled by Coops and Waring
Diospyros texana - Global

PCM - Parallel Climate Model
Diospyros_texana_final.2.conus
Diospyros_texana_final.2.global
PCM, Scenario A1FI, 2050 - Diospyros texana - CONUS
PCM, Scenario A1FI, 2050 - Diospyros texana - Global
Diospyros_texana_final.2.conus
Diospyros_texana_final.2.global
PCM, Scenario A1FI, 2100 - Diospyros texana - CONUS
Diospyros texana species not modeled by Iverson and Prasad
PCM, Scenario A1FI, 2100 - Diospyros texana - Global

Diospyros_texana_final.2.conus
Diospyros_texana_final.2.global
PCM, Scenario B1, 2050 - Diospyros texana - CONUS
PCM, Scenario B1, 2050 - Diospyros texana - Global
Diospyros_texana_final.2.conus
Diospyros_texana_final.2.global
PCM, Scenario B1, 2100 - Diospyros texana - CONUS
Diospyros texana not modeled by Iverson and Prasad
PCM, Scenario B1, 2100 - Diospyros texana - Global

Hadley Climate Model
Diospyros_texana_final.2.conus
Diospyros_texana_final.2.global
Hadley, Scenario A1FI, 2050 - Diospyros texana - CONUS
Diospyros texana not modeled by Crookston and Rehfeldt
Hadley, Scenario A1FI, 2050 - Diospyros texana - Global
Diospyros_texana_final.2.conus
Diospyros_texana_final.2.global.
Hadley, Scenario A1FI, 2100 - Diospyros texana - CONUS
Diospyros texana not modeled by Iverson and Prasad
Diospyros texana not modeled by Crookston and Rehfeldt
Diospyros texana not modeled by Coops and Waring
Hadley, Scenario A1FI, 2100 - Diospyros texana - Global

Diospyros_texana_final.2.conus
Diospyros_texana_final.2.global.
Hadley, Scenario B1, 2050 - Diospyros texana - CONUS
Diospyros texana not modeled by Crookston and Rehfeldt
Diospyros texana not modeled by Coops and Waring
Hadley, Scenario B1, 2050 - Diospyros texana - Global
Diospyros_texana_final.2.conus
Diospyros_texana_final.2.global
Hadley, Scenario B1, 2100 - Diospyros texana - CONUS
Diospyros texana not modeled by Iverson and Prasad
Diospyros texana not modeled by Crookston and Rehfeldt
Hadley, Scenario B1, 2100 - Diospyros texana - Global
Range Shift and Summary Statistics for Hadley, Scenario B1, 2050
Diospyros_texana_final.noelev

Number of Suitable Ecoregions (Niche Breadth)

24

Percent Rank of Generalist Niche Breadth of all ForeCASTS species

56.1644

Area in Present Suitable Range (in km2)

231715

Area in Future Suitable Range (Had B1 2050, in km2)

113432

Area of Overlap of Future Suitable Range with
Present Suitable Range (Had B1 2050, in km2)

85537

Percent Overlap of Future Suitable Range with
Present Suitable Range (Had B1 2050)

36.9100

Percent Rank of Largest Proportion of Overlap of all ForeCASTS species

75.4795

Percent Change in Area of Suitable Range (Had B1 2050)

-51.0400

Percent Rank of Largest Percent Change in Suitable Area of all ForeCASTS species

81.2329

Mean Non-Zero Fine Minimum Required Movement Distance
(Had B1 2050, in km)

16754.8 +/- 38708.2

Percent Rank of Longest Fine MRM Distance of all ForeCASTS species

43.1507

Mean Non-Zero Coarse Minimum Required Movement Distance
(Had B1 2050, in map cells)

8.22503 +/- 17.4426

Percent Rank of Longest Coarse MRM Distance of all ForeCASTS species

41.0959

Mean Non-Zero Coarse Optimum Required Movement Distance
(Had B1 2050, in map cells)

474.586 +/- 1056.18

Percent Rank of Longest Coarse ORM Distance of all ForeCASTS species

5.34247

Area of Present Range that has No Home in the Future
(Had B1 2050, in map cells)

24237

Proportion of Present Range that has No Home in the Future
(Had B1 2050, percent)

10.4500

Percent Rank of Largest Proportion with No Home of all ForeCASTS species

7.26027

Area of Present Range that is already Home in the Future
(Had B1 2050, in map cells)

38122

Proportion of Present Range that is already Home in the Future
(Had B1 2050, percent)

16.4500

Percent Rank of Largest Proportion Already Home of all ForeCASTS species

79.1781

Present and Future Ranges - Hadley, Scenario B1, 2050 - Diospyros texana Diospyros texana - Range Change Statistics
Fine Minimum Required Movement (MRM) Distance and Direction for Hadley, Scenario B1, 2050
Diospyros_texana_final.noelev Fine MRM Distance
Diospyros_texana_final.noelev Fine MRM Direction
Fine Minimum Required Movement (MRM) Distance - Hadley, Scenario B1, 2100 - Diospyros texana Fine Minimum Required Movement (MRM) Direction - Hadley, Scenario B1, 2100 - Diospyros texana
Coarse Minimum Required Movement (MRM) and Optimum Required Movement (ORM) Distance for Hadley, Scenario B1, 2050
Diospyros_texana_final.noelev Coarse MRM Distance
Diospyros_texana_final.noelev Coarse ORM Distance
Coarse Minimum Required Movement (MRM) Distance - Hadley, Scenario B1, 2100 - Diospyros texana Coarse Optimum Required Movement (ORM) Distance - Hadley, Scenario B1, 2100 - Diospyros texana

Thu Jul 21 10:06:36 EDT 2016


For additional information contact:

William W. Hargrove
Eastern Forest Environmental Threat Assessment Center (EFETAC)
USDA Forest Service
Southern Research Station
200 WT Weaver Boulevard
Asheville, NC 28804-3454
(828) 257-4846
(865) 235-4753 (cell)
(828) 257-4313 (fax)
hnw@geobabble.org

William W. Hargrove (hnw@geobabble.org)