Revitalization of Rivers in India Draft Policy - Isha Guru Jaggi Vasudev
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Revitalization of Rivers in India Draft Policy - Isha Guru Jaggi Vasudev

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<strong>Revitalization</strong> <strong>of</strong> <strong>Rivers</strong> In <strong>India</strong><br />

<strong>Draft</strong> <strong>Policy</strong> Recommendation<br />

data by process<strong>in</strong>g filter<strong>in</strong>g procedure. Although this method does not have any<br />

physical or hydrological basis, it aims at generat<strong>in</strong>g an objective, repeatable<br />

and easily automated <strong>in</strong>dex that can be related to the base flow response <strong>of</strong> the<br />

catchment (Arnold et al., 2000). The second most frequently used method is<br />

a statistical method known as frequency-duration analysis. It calculates the<br />

probability <strong>of</strong> a given flow that will equal or exceed daily, monthly and annual<br />

flows.<br />

REFERENCES:<br />

1. Beck, H.E., Bruijnzeel, L.A., Van Dijk, A.I.J.M., McVicar, T.R., Scatena, F.N. and<br />

Schellekens, J., 2013. The impact <strong>of</strong> forest regeneration on streamflow <strong>in</strong> 12<br />

mesoscale humid tropical catchments. Hydrology and Earth System Sciences, 17(7),<br />

2613.<br />

2. Bruijnzeel, L. A., 2004. Hydrological functions <strong>of</strong> tropical forests: not see<strong>in</strong>g the soil<br />

for the trees? Agric. Ecosyst. Environ. 104, 185–228.<br />

3. Gómez-Gómez, Fernando, Rodríguez-Martínez, Jesús, Santiago-Rivera, Luis,<br />

Oliveras-Feliciano, Mario, and Conde-Costas, Carlos, 2001, Surface-water, waterquality,<br />

and ground-water assessment <strong>of</strong> the Municipio <strong>of</strong> Caguas, Puerto Rico,<br />

1997–1999: U.S. Geological Survey Water-Resources Investigations Report 00–4280,<br />

42.<br />

4. Gonzalez-Sosa, E., I. Braud, J. Dehot<strong>in</strong>, L. Lassabatère, R. Angulo-Jaramillo, M.<br />

Lagouy, F. Branger, C. Jacquem<strong>in</strong>et, S. Kermadi and K. Michel. 2010. Impact <strong>of</strong><br />

land use on the hydraulic properties <strong>of</strong> the topsoil <strong>in</strong> a small French catchment<br />

Hydrological Processes. 24(17): 2382–2399.<br />

5. Johnson, M.S., and Lehmann, J., 2006, Double-funnel<strong>in</strong>g <strong>of</strong> trees-Stemflow and<br />

root-<strong>in</strong>duced preferential flow: Ecoscience, 13,(3), 324–333.<br />

6. Kathy R. Chandler, Nick A. Chappell. 2008. Influence <strong>of</strong> <strong>in</strong>dividual oak (Quercus<br />

robur) trees on saturated hydraulic conductivity. Forest Ecology and Management.<br />

256 (5), 1222–1229.<br />

7. Koichiro, K., Yuri, T., and Isami, K., 2001. Generation <strong>of</strong> streamflow volume and<br />

chemistry <strong>in</strong> a mature Japanese cypress forest: Hydrological Processes, 15, 1967-<br />

1978.<br />

8. Kuylenstierna, J. L., Björklund, G. and Najlis, P., 1998. The Comprehensive<br />

Assessment <strong>of</strong> the Freshwater Resources <strong>of</strong> the World-<strong>Policy</strong> Options for an<br />

Integrated Susta<strong>in</strong>able Water Future. Water International, 23, 17–20.<br />

Annexures<br />

295

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