Ruisseau· 11 segments
Murphy Creek
Crosses 7 administrative regions : Arapahoe, Barton, Dane, Dunn, Garland +2
Total length
457km
Max discharge
0,4m³/s
Max Strahler
2
Segments matched
11
River geography7 admin regions · 0 communes
7 administrative regions crossed (GADM L2)
- DunnNorth Dakota · United States18.1 kmin this dpt
- ArapahoeColorado · United States7.7 kmin this dpt
- DaneWisconsin · United States5.9 kmin this dpt
- GarlandArkansas · United States5.6 kmin this dpt
- JasperMissouri · United States3.2 kmin this dpt
- BartonMissouri · United States0.0 kmin this dpt
- MontgomeryArkansas · United States0.0 kmin this dpt
8 intersecting protected areas
Scattered Wildlife
IUCN VWildlife Area
Lake Ilo
IUCN IVNational Wildlife Refuge
Natural Heritage Land Trust Easement #
IUCN Not AssignedEasement
Sand Creek
IUCN VGreenway
Waubesa Wetlands Fee
IUCN VWetlands
Triple Creek
IUCN VGreenway
Murphy Creek
IUCN VGreenbelt
Murphy Creek East
IUCN VGreenbelt
1 page = 1 named river (aggregation of 11 HydroRIVERS v10 segments). Spatial join cached after first hit.
Species present
24 distinct species · 24 observations
Source: GBIF Occurrence snapshot 2026-05-01.
Ecological tissue
Sample of 13 species (selected proportionally per kingdom among those with at least one documented interaction here) to keep the graph readable. Hover for details, click to explore the full ecosystem of a species.
ℹ️ The territory contains many more species than displayed and all their documented interactions: the graph is intentionally the structural skeleton (top-N species by composite local score, edges filtered by Serrano 2009 disparity filter α=0.2).
Indicateurs du tissu écologique
Tissu écologique de Murphy Creek : 13 espèces reliées par 11 interactions GloBI sur 3 types (connectance 14.1%, filtre Serrano α=0.2).
Comparaison sur la connectance du réseau local complet vs distribution nationale (toutes les communes françaises).
Hydrology (HydroRIVERS v10)
Total length
457km
Max discharge
0,4m³/s
Max Strahler
2
Segments matched
11
HydroRIVERS v1.0 (Lehner et al. 2019) aggregated by name + main_riv → 1 entity = 1 named river.