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Inter‐basin transfers extend the benefits of water from forests to population centers across the conterminous US
Inter‐basin transfers extend the benefits of water from forests to population centers across the conterminous US
Liu, N., Dobbs, G. R., Caldwell, P. V, Miniat, C. F., Sun, G., Duan, K., Nelson, S. A. C., Bolstad, P. V., & Carlson, C. P. (2022). Inter‐Basin Transfers Extend the Benefits of Water From Forests to Population Centers Across the Conterminous U.S. Water Resources Research, 58(5), 1–19. https://doi.org/10.1029/2021WR031537
An evaluation of ECOSTRESS products of a temperate montane humid forest in a complex terrain environment
An evaluation of ECOSTRESS products of a temperate montane humid forest in a complex terrain environment
Liu, N., Oishi, A. C., Miniat, C. F., & Bolstad, P. (2021). An evaluation of ECOSTRESS products of a temperate montane humid forest in a complex terrain environment. Remote Sensing of Environment, 265(August), 112662. https://doi.org/10.1016/j.rse.2021.112662
Forested lands dominate drinking water supply in the conterminous United States
Forested lands dominate drinking water supply in the conterminous United States
Liu, N., Caldwell, P. V., Dobbs, G. R., Miniat, C. F., Bolstad, P. V., Nelson, S. A., & Sun, G. (2021). Forested lands dominate drinking water supply in the conterminous United States. Environmental Research Letters, 16(8), 084008. https://doi.org/0.1088/1748-9326/ac09b0
Quantifying the role of State and private forest lands in providing surface drinking water supply for the Southern United States
Quantifying the role of State and private forest lands in providing surface drinking water supply for the Southern United States
Liu, N., Dobbs, G. R., Caldwell, P. V, Miniat, C. F., Bolstad, P. V, Nelson, S., & Sun, G. (2020). Quantifying the role of State and private forest lands in providing surface drinking water supply for the Southern United States. General Technical Report GTR-SRS-248. https://doi.org/10.2737/SRS-GTR-248
Trade-off between watershed water yield and ecosystem productivity along elevation gradients on a complex terrain in southwestern China
Trade-off between watershed water yield and ecosystem productivity along elevation gradients on a complex terrain in southwestern China
Liu, N., Sun, P., Caldwell, P. V, Harper, R., Liu, S., & Sun, G. (2020). Trade-off between watershed water yield and ecosystem productivity along elevation gradients on a complex terrain in southwestern China. Journal of Hydrology, 590(April), 125449. https://doi.org/10.1016/j.jhydrol.2020.125449
Using reforestation to reverse salinisation in a large watershed
Using reforestation to reverse salinisation in a large watershed
Ruprecht J., Sparks T., Liu N., Dell B., and Harper R. (2019). Using reforestation to reverse salinisation in a large watershed, Journal of Hydrology, 577, 123976. https://doi.org/10.1016/j.jhydrol.2019.123976
Responses of streamflow to vegetation and climate change in southwestern Australia
Responses of streamflow to vegetation and climate change in southwestern Australia
Liu, N., Harper, R. J., Smettem, K. R. J., Dell, B., & Liu, S. (2019). Responses of streamflow to vegetation and climate change in southwestern Australia. Journal of Hydrology, 572, 761–770. https://doi.org/10.1016/j.jhydrol.2019.03.005
Parallelization of a distributed ecohydrological model
Parallelization of a distributed ecohydrological model
Liu, N., Shaikh, M. A., Kala, J., Harper, R. J., Dell, B., Liu, S., & Sun, G. (2018). Parallelization of a distributed ecohydrological model. Environmental Modelling & Software, 101, 51-63. https://doi.org/10.1016/j.envsoft.2017.11.033
Seasonal Timing for Estimating Carbon Mitigation in Revegetation of Abandoned Agricultural Land with High Spatial Resolution Remote Sensing
Seasonal Timing for Estimating Carbon Mitigation in Revegetation of Abandoned Agricultural Land with High Spatial Resolution Remote Sensing
Liu, N.; Harper, R.J.; Handcock, R.N.; Evans, B.; Sochacki, S.J.; Dell, B.; Walden, L.L.; Liu, S. Seasonal Timing for Estimating Carbon Mitigation in Revegetation of Abandoned Agricultural Land with High Spatial Resolution Remote Sensing. Remote Sensing, 2017, 9, 545. https://doi.org/10.3390/rs9060545
Vegetation dynamics and rainfall sensitivity for different vegetation types of the Australian continent in the dry period 2002 - 2010
Vegetation dynamics and rainfall sensitivity for different vegetation types of the Australian continent in the dry period 2002 - 2010
Liu, N., Harper, R. J., Dell, B., Liu, S., & Yu, Z. (2016). Vegetation dynamics and rainfall sensitivity for different vegetation types of the Australian continent in the dry period 2002 - 2010. Ecohydrology. http://doi.org/10.1002/ECO.1811
A global review on hydrological responses to forest change across multiple spatial scales: importance of scale, climate, forest type and hydrological regime
A global review on hydrological responses to forest change across multiple spatial scales: importance of scale, climate, forest type and hydrological regime
Zhang, M., Liu, N., Harper, R., Li, Q., Liu, K., Wei, X., & Liu, S. (2016). A global review on hydrological responses to forest change across multiple spatial scales: importance of scale, climate, forest type and hydrological regime. Journal of Hydrology, 546, 44-59. http://doi.org/10.1016/j.jhydrol.2016.12.040
Trade-offs between water yield and carbon sequestration for sub-alpine catchments in western Sichuan, China
Trade-offs between water yield and carbon sequestration for sub-alpine catchments in western Sichuan, China
Sun, P., Liu, N., Liu, S., & Sun, G. (2016). Trade-offs between water yield and carbon sequestration for sub-alpine catchments in western Sichuan, China. Chinese Journal of Plant Ecology, 40(10), 1037-1048. http://doi.org/10.17521/cjpe.2016.0020 (in Chinese with English Abstract)
Coupling simulation of water-carbon processes for catchment: calibration and validation of the WaSSI-C model
Coupling simulation of water-carbon processes for catchment: calibration and validation of the WaSSI-C model
Liu, N., Sun, P., Liu, S., & Sun, G. (2013). Coupling simulation of water-carbon processes for catchment: calibration and validation of the WaSSI-C model. Chinese Journal of Plant Ecology, 37(6), 492-502. http://doi.org/10.3724/SP.J.1258.2013.00051 (in Chinese with English Abstract)
Research advances in simulating land water- carbon coupling
Research advances in simulating land water- carbon coupling
Liu, N., Sun, P., & Liu, S. (2012). Research advances in simulating land water- carbon coupling. Chinese Journal of Applied Ecology, 23(11), 3187-3196. (in Chinese with English Abstract)
The increasing demand of adaptive management of land, forest, and water resources under the background of global change and water resources crisis has promoted the comprehensive study of coupling ecosystem water and carbon cycles and their restrictive relations. To construct the water-carbon coupling model and to approach the ecosystem water-carbon balance and its interactive response mechanisms under climate change at multiple spatiotemporal scales is nowadays a major concern. After reviewing the coupling relationships of water and carbon at various scales, this paper explored the implications and estimation methods of the key processes and related parameters of water-carbon coupling, the construction of evapotranspiration model at large scale based on RS, and the importance of this model in water-carbon coupling researches. The applications of assimilative multivariate data in water-carbon coupling researches under future climate change scenarios were also prospected.
Determination of spatial scale of response unit for the WaSSI-C eco-hydrological model-a case study on the upper Zagunao River watershed of China
Determination of spatial scale of response unit for the WaSSI-C eco-hydrological model-a case study on the upper Zagunao River watershed of China
Liu, N., Sun, P., Liu, S., & Sun G. (2012). Determination of spatial scale of response unit for the WaSSI-C eco-hydrological model-a case study on the upper Zagunao River watershed of China. Chinese Journal of Plant Ecology, 37(2), 132-141. http://doi.org/10.3724/SP.J.1258.2013.00014 (in Chinese with English Abstract)
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