Abstract
Worldwide, evidences of water cycle alteration and fresh water resources depletion are frequently reported with various magnitudes. This alteration in the hydrologic cycle is often regarded as a signal of the actual climate change. However, the debate on climate change seems to have preferentially focused on global-scale patterns such that the rich knowledge gathered in the domain is virtually less integrated to decision making at the watershed level. Indeed, the watershed apprehension of climate change is probably an imperative for sustainable water resources planning. The scope of the present study aligns with that imperative as it aims at conciliating patterns of climate change with observations of hydrologic alterations at the watershed level. Specifically, the paper describes the interplay between land-cover changes and the terrestrial water cycle disturbances under climate change at the global level. Thereafter, it reports a watershed-level analysis of streamflow, land-cover, PET and precipitation alteration. Specially, the case study focused on the Brazos River basin, located in the USA and shared by the states of Texas and New Mexico. From both regional and watershed prospects, signals of hydrologic alteration during the time period 1955–2014 are highlighted and then implications of climate change are discussed. The results show an overall longitudinal gradient of precipitation changes and a latitudinal gradient of PET changes across the Brazos watershed. However, these gradients of changes seem to be driven by regional climate components which extend beyond the physical boundary of the Brazos watershed. Mann–Kendall’s analysis of discharge time series (annual average, minimum and maximum) at 10 different stations exhibits meaningful contrasts from upstream to downstream. An assessment of land-cover changes shows critical patterns of landscape change across the watershed. The analyses depicted signals of urbanization sprawl and land-cover degradation. Specially, the significant statistical relationships observed between the time series of maximum green vegetation fraction (MGVF) and streamflow also indicate that the origin of the observed hydrologic alteration is anthropogenic. Ultimately, the results are discussed within the scope of climate change.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Ahiablame L, Shakya R (2016) Modeling flood reduction effects of low impact development at a watershed scale. J Environ Manag 171:81–91
Arguez A, Vose RS (2011) The definition of the standard WMO climate normal: the key to deriving alternative climate normals. Bull Am Meteorol Soc 92(6):699
Bonan GB (2008) Forests and climate change: forcings, feedbacks, and the climate benefits of forests. Science 320(5882):1444–1449
Broxton PD, Zeng X, Scheftic W, Troch PA (2014) A MODIS-based 1 km Maximum green vegetation fraction dataset. J Appl Meteorol Clim. doi:10.1175/JAMC-D-13-0356.1
Cox PM, Betts RA, Jones CD, Spall SA, Totterdell IJ (2000) Acceleration of global warming due to carbon-cycle feedbacks in a coupled climate model. Nature 408(6809):184–187
Hallegatte S (2009) Strategies to adapt to an uncertain climate change. Glob Environ Change 19(2):240–247
Hamed KH (2008) Trend detection in hydrologic data: the Mann–Kendall trend test under the scaling hypothesis. J Hydrol 349(3):350–363
Harris IPDJ, Jones PD, Osborn TJ, Lister DH (2014) Updated high-resolution grids of monthly climatic observations—the CRU TS3. 10 Dataset. Int J Climatol 34(3):623–642
Harwell GR, Stengel VG, Bumgarner JR (2016) Simulation of streamflow and the effects of brush management on water yields in the Double Mountain Fork Brazos River watershed, western Texas 1994–2013: U.S. Geological Survey Scientific Investigations Report 2016–5032
Higgins RW, Yao Y, Wang XL (1997) Influence of the North American monsoon system on the US summer precipitation regime. J Clim 10(10):2600–2622
Hoell A, Funk C, Barlow M, Shukla S (2016) Recent and possible future variations in the North American monsoon. In: de Carvalho L, Jones C (eds) The monsoons and climate change. Springer, Cham, Berlin, pp 149–162
Homer CG, Dewitz JA, Yang L, Jin S, Danielson P, Xian G, Coulston J, Herold ND, Wickham JD, Megown K (2015) Completion of the 2011 national land cover database for the conterminous United States-representing a decade of land cover change information. Photogramm Eng Remote Sens 81(5):345–354
Huntzinger DN, Eatmon TD (2009) A life-cycle assessment of Portland cement manufacturing: comparing the traditional process with alternative technologies. J Clean Prod 17(7):668–675
Knutti R, Rogelj J, Sedláček J, Fischer EM (2016) A scientific critique of the two-degree climate change target. Nat Geosci 9(1):13–18
Labat D, Goddéris Y, Probst JL, Guyot JL (2004) Evidence for global runoff increase related to climate warming. Adv Water Resour 27(6):631–642
McVicar TR, Roderick ML, Donohue RJ, Li LT, Van Niel TG, Thomas A, Grieser J, Jhajharia D, Himri Y, Mahowald NM, Mescherskaya AV, Kruger AC, Rehman S, Dinpashoh Y (2012) Global review and synthesis of trends in observed terrestrial near-surface wind speeds: implications for evaporation. J Hydrol 416–417:182–205
Milly PC, Dunne KA, Vecchia AV (2005) Global pattern of trends in streamflow and water availability in a changing climate. Nature 438(7066):347–350
Moore N, Rojstaczer S (2002) Irrigation’s influence on precipitation: Texas High Plains, USA. Geophys Res Lett 29(16):1755
Nijssen B, O’donnell GM, Hamlet AF, Lettenmaier DP (2001) Hydrologic sensitivity of global rivers to climate change. Clim Change 50(1–2):143–175
Oki T, Kanae S (2006) Global hydrological cycles and world water resources. Science 313(5790):1068–1072
Peters CA, Bratton SP (2016) Urbanization is a major influence on microplastic ingestion by sunfish in the Brazos River Basin, Central Texas, USA. Environ Pollut 210:380–387
Potapov P, Hansen MC, Stehman SV, Loveland TR, Pittman K (2008) Combining MODIS and Landsat imagery to estimate and map boreal forest cover loss. Remote Sens Environ 112(9):3708–3719
Reich PB, Oleksyn J (2004) Global patterns of plant leaf N and P in relation to temperature and latitude. Proc Natl Acad Sci USA 101(30):11001–11006
Sohoulande Djebou DC (2017) Bridging drought and climate aridity. J Arid Environ 144:170–180
Sohoulande Djebou DCS, Singh VP (2015) Impact of climate change on the hydrologic cycle and implications for society. Environ Soc Psychol 1:9–16
Sohoulande Djebou DCS, Singh VP (2016a) Impact of climate change on precipitation patterns: a comparative approach. Int J Climatol 36:3588–3606
Sohoulande Djebou DC, Singh VP (2016b) Entropy-based index for spatiotemporal analysis of streamflow, precipitation, and land-cover. J Hydrol Eng 21(11):05016024
Sohoulande Djebou DCS, Singh VP, Frauenfeld OW (2014) Analysis of watershed topography effects on summer precipitation variability in the southwestern United States. J Hydrol 511:838–849
Stocker TF, Raible CC (2005) Climate change: water cycle shifts gear. Nature 434(7035):830–833
Swann AL, Longo M, Knox RG, Lee E, Moorcroft PR (2015) Future deforestation in the Amazon and consequences for South American climate. Agric For Meteorol 214:12–24
Vörösmarty CJ, Green P, Salisbury J, Lammers RB (2000) Global water resources: vulnerability from climate change and population growth. Science 289(5477):284–288
Weng Q (2001) Modeling urban growth effects on surface runoff with the integration of remote sensing and GIS. Environ Manag 28(6):737–748
Wurbs RA (2005) Modeling river/reservoir system management, water allocation, and supply reliability. J Hydrol 300(1):100–113
Yue S, Pilon P, Cavadias G (2002) Power of the Mann–Kendall and Spearman’s rho tests for detecting monotonic trends in hydrological series. J Hzydrol 259(1):254–271
Zar JH (1972) Significance testing of the Spearman rank correlation coefficient. J Am Stat Assoc 67(339):578–580
Zeng X, Dickinson RE, Walker A, Shaikh M, DeFries RS, Qi J (2000) Derivation and evaluation of global 1-km fractional vegetation cover data for land modeling. J Appl Meteorol 39(6):826–839
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Sohoulande Djebou, D.C. Spectrum of climate change and streamflow alteration at a watershed scale. Environ Earth Sci 76, 653 (2017). https://doi.org/10.1007/s12665-017-7006-x
Received:
Accepted:
Published:
DOI: https://doi.org/10.1007/s12665-017-7006-x