Geomorphometric attributes of the global system of rivers at 30-minute spatial resolution

In this paper we explore the geomorphometric characteristics and integrity of a 30' (longitude x latitude) spatial resolution representation of the gl obal system of potentially-flowing rivers. We quantify several geomorphomet ric attributes of digital, Simulated Topological Network (STN-30p) depictin g potential flow pathways across the entire non-glacierized surface of the Earth. This data set was examined with respect to several metrics describin g individual grid cells, river segments, and complete drainage systems. Nea rly 60,000 grid cells constitute the global non-glacierized land mass. The cells are organized into more than 30,000 distinct river segments belonging to approximately 6200 drainage basins. STN-30p flow paths and drainage bas ins are classified as order one through six using the classification system of Strahler. STN-30p flow pathways depict rivers draining a global land ar ea of 133.1 x 10(6) km(2). These pathways show a total length of 3.24 x 10( 6) km at 30' spatial resolution. The relationships between STN-30p order an d interior river segment numbers, accumulated sub-basin areas, and accumula ted length within individual basins yield high correlation coefficients (av erage r(2) > 0.96 for continents and globe). Mean values across individual continents and river orders for the bifurcation ratio (3.15 to 4.44), drain age area ratio (3.74 to 5.77), and basin length ratio (2.02 to 3.27) fall w ell within the ranges tabulated at finer spatial scales. A basin shape inde x, S-b = L/A(0.5), defined as a function of potential mainstem length and d rainage area, varies between 1.0 and 5.0 for basins >25,000 km(2) and shows a global mean of 2.12. The structure of STN-30p potential river systems is consistent with those of rivers analyzed at finer spatial scales as demons trated by the numerical similarity of the several geomorphometric indices a nalyzed. However, for a particular basin, indices from STN-30p will be base d on a condensed set of river orders relative to those derived at finer sca les. A first order STN-30p river is roughly equivalent to an order five-to- six river derived from 1:62,500 scale maps. While 30' spatial resolution wa s found to represent well the 522 basins with areas >25,000 km(2) that drai n 82% of the land mass, it cannot be used with high confidence in character izing the geomorphometry of the remaining smaller basins. For global climat e and biogeochemical studies, a composite of the 30' resolution and finer s patial resolutions appears to be necessary. (C) 2000 Elsevier Science B.V. All rights reserved.