2040 Future Human Footprint - North Central Lakes Rapid Growth Scenario
Dataset Identification:
Resource Abstract:
The Future Human Footprint (FHF) of the Northern Appalachian/Acadian ecoregion projects the extent and relative intensity
of human influence on terrestrial ecosystems over a 20-40 year span at a resolution of 90 m using best available data sets
on human settlement (population density, dwelling density, urban areas), access (roads, rail lines), landscape transformation
(landuse/landcover, dams, mines, watersheds), and electrical power infrastructure (utility corridors). The Future Human Footprint
uses as a basis the Current Human Footprint, and projects forward salient, dynamic features of human infrastructure including
residential roads, human settlement, and amenity development. It attempts to capture two dominant land use change processes
in North America: 1) exurban growth or incremental expansion in settled landscapes, and 2) instantaneous growth focused on
natural amentities (i.e., lakeshores). <br /> <br />Each 90m grid cell is attributed with a Human Footprint score between
0 and 100, where 0 represents minimum human influence and 100 represents maximum human influence at that location. The Human
Footprint scores (0-100) may be interpreted as the percent influence. <br /> <br />The Human Footprint is calculated by assigning
Human Influence (HI) scores of 0 to 10 to geographic data layers that map features of human activity. Where 0 is no human
influence (no conversion from natural state) and 10 is maximum human influence (complete conversion e.g. urban areas, road
surfaces). HI scores from assigned to data layers are combined together to calculate the Human Influence Index (HII), that
measures total direct human impact. <br /> <br />The Human Footprint is a relative measure of human impact - relative to the
ecological context. The Human Footprint is calculated by normalizing the Human Influence Index (HII) within ecological subunits
within the study area using the equation HFi = [(HIIi - HIImin_j) * 100] / (HIImax_j - HIImin_j) where i represents the cell
and j represents the ecologic subunit of which the cell is a member. <br /> <br />Specifically, this FHF scenario, termed
"Rapid Influx B: the North Central Lakes scenario", casts forward these dyanamic components by 1) an exponential
growth model for human population based on 1990's county level growth rates from the Upper Midwestern United States, acting
as a neighborhood effect on 2000-2001 NAP ecoregion census units; 2) applying a logit model to explain historical changes
in road distribution and then project them to the ecoregion scale (Baldwin et al. 2007), and 3) applying a spatial screening
model to identify at risk lakeshores, based on protection level, size of lake, distance to nearest urban area, and predisposition
of owners to sell. The Rapid Influx B: North Central Lakes Human Footprint is based on the following scenario: <br />Rapid
Influx B: North Central Lakes Model <br />Process 1: a) 1990's population growth from North Central Lakes region counties,
projected 40 years; b) projected 80% probability surface for regular, public roads <br />Process 2: risk to wilderness lakeshores,
200 km zone from major urban areas (NCL had high amenity and urban growth) <br /> <br />The two Rapid Influx scenarios illustrate
what might happen in our region if the rates of change are greatly accelerated due to changing conditions outside of the region
leading to increased immigration (Process 1). Coupled with this is a heavy rise in wilderness development reflecting greater
pressure from urban areas (Process 2). <br /> <br />An example of changing conditions leading to increased immigration would
be new industries that have regional economic effects (e.g., the "Microsoft phenomenon" of the Pacific Northwest).
Another is the possibility that until now, the Northeast has lagged behind the Upper Midwest in growth due to demographic
and economic factors, and if those change we may experience rapid exurban growth and accompanying development of rural "amenity"
landscapes.
Citation
Title 2040 Future Human Footprint - North Central Lakes Rapid Growth Scenario