Reconstituting Land-Use Federalism to Address Transitory and Perpetual Disasters: The Bimodal Federalism Framework
LSU Law Center; LSU School of the Coast and Environment
January 1, 2012
Brigham Young University Law Review, Vol. 2011, p. 1991
Scholars analyzing the intersection of federalism and disaster law and policy have primarily focused on the difficulties federalism poses for interjurisdictional coordination of disaster response. Though scholars have highlighted that rising disaster risks and costs are associated with “land-use planning that exacerbates, rather than mitigates, disaster risk,” a more holistic analysis of land-use-related disaster law and policy is needed. This Article provides a more comprehensive framework within which to analyze prospective mitigation or prevention of disaster risk and costs through a rebalancing - or reconstituting - of the respective roles of the federal and state governments in land-use planning. The federal government does not currently maintain direct regulatory inputs into a variety of land-use planning policies that exacerbate disaster risks and costs - a situation that likely results from the history of jurisprudence declaring that land-use regulation is the “quintessential state and local government” power under the Constitution. Even so, because of the national interests at stake and the greater capacity of the federal government to coordinate standards for disasters with very large interjurisdictional impacts, greater federal regulatory inputs for certain disasters are needed where state and local governments have failed to formulate standards. For other land-use-related disasters, federal inputs may be less necessary, though overlapping federal, state, and local government regulations can yield even more robust disaster mitigation and prevention policies.
This Article first categorizes the various disasters that implicate state and local government land-use planning along a “transitory-perpetual” spectrum. This spectrum provides a frame of reference for assessing which land-use-related disasters are more localized with shorter temporal effects, and which therefore may require fewer federal inputs, and those that have far longer temporal effects and larger interjurisdictional impacts of nationwide import, therefore requiring greater federal input. The spectrum further provides a framework for determining the viability, from a constitutional perspective, of federal regulatory inputs into land-use planning for which more federal inputs may be needed. This constitutional analysis is undertaken in the context of a theory of “Bimodal Federalism,” which integrates two modes of operation of modern U.S. federalism, acknowledging the trend toward the new “Dynamic Federalism” theory that normatively disregards separate constitutional spheres of authority for the state and local governments, while also incorporating the reality that remnants of “Dual Federalism” theory still inform constitutional jurisprudence related to certain subject matters - like land-use planning.
Finally, based upon the transitory-perpetual spectrum categorizations and informed by bimodal federalism analysis, this Article assesses the appropriate legislative mechanisms for reconstituting land-use disaster federalism. This Article hypothesizes that those disasters closer to the perpetual end of the spectrum also happen to be the ones for which top-down federal inputs into land-use policy are both more desirable and less constitutionally suspect. Correspondingly, for land-use-related disasters that are more transitory in nature, top-down federal inputs may be more constitutionally suspect, thus calling for a need to explore bilateral and horizontal mechanisms of reconstituting federalism for all categories of disaster.
Number of Pages in PDF File: 72
Keywords: Federalism, disaster, land use, Constitution, State and Local GovernmentAccepted Paper Series
Date posted: September 7, 2011 ; Last revised: May 5, 2012
© 2014 Social Science Electronic Publishing, Inc. All Rights Reserved.
This page was processed by apollo3 in 0.718 seconds