9). In the western Zone 1 (Fig. 8), the deltaic coast nearest Karachi, the 1944 tidal creeks show only minor amount of channel migration, a slight increase in tidal channel density in the outer flats, an increase in tidal channel density in the inner flats, and little to no increase in tidal inundation limits. Zone 1 had a net land loss of 148 km2 incorporating
areas of both erosion and deposition (Table 2 and Fig. 8). Imagery in between 1944 and 2000 indicates that the shoreline saw episodic gains and losses. Giosan et al. (2006) also C59 wnt research buy noted that the shoreline in Zone 1 was relatively stable since 1954, but experienced progradation rates of 3–13 m/y between 1855 and 1954. The west-central part of the delta (Zone 2 in Fig. 8) that includes the minor of two river mouths still functioning in 1944 shows larger changes: a >10 km increase in tidal inundation limits, the development of a dense tidal creek network including the landward 3-Methyladenine chemical structure extension of tidal channels, and shorelines that have both advanced and retreated. Zone 2 had a net loss of 130 km2 (Table 2 and Fig. 8). The Ochito distributary channel had been largely filled in with sediment since 1944. In the south-central part of the delta (Zone 3 in Fig. 8) is the zone where 149 km2 of new land area is balanced with 181 km2 of tidal channel
development (Table 2). The Mutni distributary channel, the 5-FU datasheet main river mouth in 1944, and its associated tidal creeks, were filled in with sediment by 2000. Before the Mutni had avulsed to the present Indus River mouth, much sediment was deposited and the shoreline had extended seaward by more than 10 km (Fig. 8 and Fig. 9). Large tidal channels were eroded into the tidal flats and tidal inundation was extended landward. We suspect that eroded tidal flat sediment contributed to the shoreline progradation in Zone 3 of 150 m/y. Most of the progradation was prior to the 1975, in agreement with Giosan et al. (2006). The eastern Indus Delta (Zone 4 in Fig. 8) experienced the most profound changes. Almost 500 km2 of these tidal flats were eroded into deep and broad (2–3 km wide) tidal channels,
balanced by <100 km2 of sediment deposited in older tidal channels (Fig. 8). Tidal inundation is most severe in Zone 4 (Fig. 8). In summary, during the 56-yr study interval parts of the Indus Delta lost land at a rate of 18.6 km2/y, while other parts gained in area by 5.9 km2/y, mostly in the first half of this period. During this time a stunning 25% of the delta has been reworked; 21% of the 1944 Indus Delta was eroded, and 7% of the delta plain was formed (Table 2). To approximate these area loss or gain rates, to sediment mass we use 2 m for the average depth of tidal channels (see section C3 in Fig. 4). The erosion rate is then ∼69 Mt/y, whereas the deposition rate is ∼22 Mt/y, corresponding to a mean mass net loss of ∼47 Mt/y.