Biggs, J., Von, F. S., Kelly, Q. M., et al., 2017.“The importance of small waterbodies for biodiversity and ecosystem services: Implications for policy makers”. Hydrobiologia 793(1):3-39.
Biggs, J., Von, F. S., Kelly, Q. M., et al., 2005.“15 years of pond assessment in Britain: Results and lessons learned from the work of pond conservation.” Aquatic Conservation: Marine and Freshwater Ecosystems 15(6):693-714.
Calhoun, A. J., Mushet, D. M., Bell, K. P., et al., 2017.“Temporary wetlands:Challenges and solutions to conserving a‘disappearing’ecosystem.” Biological Conservation 211(2):3-11.
Chang, F., and Chang, Y., 2006.“Adaptive neuro-fuzzy inference system for prediction of water level in reservoir.” Advances in Water Resources 29 (1):1-10.
Cheng, F.Y., and Basu, N.B., 2017.“Biogeochemical hotspots: Role of small water bodies in landscape nutrient processing.” Water Resources Research 53(6):5038-5056.
Chen, W., He, B., Nover, D., et al., 2019.“Farm ponds in southern China:Challenges and solutions for conserving a neglected wetland ecosystem.” The Science of the Total Environment 659:1322-1334.
Chen, W., He, B., Nover, D., et al., 2018.“Spatiotemporal patterns and source attribution of nitrogen pollution in a typical headwater agricultural watershed in Southeastern China.” Environmental Science & Pollution Research 25(3):2756-2773.
Chen, W., Nover, D., Yen, H., et al., 2020.“Exploring the multi-scale hydrologic regulation of multi-pond systems in a humid agricultural catchment.” Water Research 184(3):115987.
Chen, W. J., Daniel, N., Haw, Y., et al., 2020.“Exploring the multi-scale hydrologic regulation of multi-pond systems in a humid agricultural catchment.” Water Research 184(3): 115987.
Chen, W. J., Daniel, N., Xia, Y. Q., et al., 2021.“Assessment of extrinsic and intrinsic influences on water quality variation in subtropical agricultural multi-pond systems.” Environmental Pollution 276(19): 116689.
Cohen, M. J., Creed, I. F., Alexander, L., et al., 2016.“Do geographically isolated wetlands influence landscape functions?” Proceedings of the National Academy of Sciences of the United States of America 113:1978-1986.
Cools, J., Innocenti, D., O'Brien, S., 2016.“Lessons from flood early warning systems.” Environmental Science & Policy 58:117-122.
Creed, I. F., Lane, C. R., Serran, J. N., et al., 2017.“Enhancing protection for vulnerable waters.” Nature Geoscience 10(11): 809-815.
DiBello, F.J., Calhoun, A.J., Morgan, D.E., et al., 2016.“Efficiency and detection accuracy using print and digital stereo aerial photography for remotely mapping vernal pools in New England landscapes.” Wetlands. 36(3): 505-514.
Duan, W., He, B., Nover, D., et al., 2016.“Floods and associated socioeconomic damages in China over the last century.” Natural Hazards 82(1): 401-413.
Evenson, G. R., Golden, H. E., Lane, C. R., et al., 2016.“An improved representation of geographically isolated wetlands in a watershed-scale hydrologic model.” Hydrological Processes 30(22):4168-4184.
Evenson, G. R., Jones, C. N., McLaughlin, D. L., et al., 2018.“A watershed-scale model for depressional wetland-rich landscapes.” Journal of Hydrology 1:100002.
Feng, X. Q., Zhang, G. X., Jun, X. Y., 2013.“Simulation of hydrological processes in the Zhalong wetland within a river basin, Northeast China.” Hydrology and Earth System Sciences 17(7):2797-2807.
Ghajarnia, N., Destouni, G., Thorslund, J., et al., 2020.“Data for wetlandscapes and their changes around the world Earth.” Earth System Science Data 12(2):1083-1100.
Golden, H. E., Rajib, A., Lane, C. R., et al., 2019.“Non-floodplain wetlands affect watershed nutrient dynamics: A critical review” Environmental Science and Technology 53(13):7203-7214.
Hunter, J., Acuña, V., Bauer, D. M., 2017.“Conserving small natural features with large ecological roles: A synthetic overview.” Biological Conservation 211(2):88-95.
Johnston, C. A., Detenbeck, N. E., Niemi, G. J., 1990.“The cumulative efect of wetlands on stream water quality and quantity. A landscape approach.” Biogeochemistry 10 (2):105-141.
Korn, M., 1996.“The dike-pond concept: Sustainable agriculture and nutrient recycling in China.” Ambio 25(1): 6-13.
Lahoz-Monfort, J.J., Chadès, I., Davies, A., et al., 2019.“A call for international leadership and coordination to realize the potential of conservation technology.” Bioscience 69(10): 823-832.
Lane, C. R., Creed, I. F., Golden, H. E., et al., 2022.“Vulnerable waters are essential to watershed resilience.” Ecosystems 1-28.
Lane, C. R., Leibowitz, S. G., Autrey, B. C., et al., 2018.“Hydrological,physical, and chemical functions and connectivity of non-floodplain wetlands to downstream waters: A review.” Journal of the American Water Resources Association 54(2):346-371.
Lang, M. W., and McCarty, G. W., 2009.“LIDAR intensity for improved detection of inundation below the forest canopy.” Wetlands. 29 (4):1166−1178.
Leibowitz, S. G., and Nadeau, T. L., 2003.“Isolated wetlands: State-of-the-science and future directions.” Wetlands. 23(3):663-684.
Leibowitz, S. G., Wigington, P. J., Rains, M. C., et al., 2008.“Non-Navigable Streams and Adjacent Wetlands: Addressing Science Needs Following the Supreme Court's Rapanos Decision.” Frontiers in Ecology and the Environment 6(7):366-373.
Leibowitz, S. G., Wigington, Jr., Schofield, K., et al., 2018.“Connectivity of Streams and Wetlands to Downstream Waters: An Integrated Systems Framework.” Journal of the American Water Resources Association 54 (2): 298-322.
Liu, Y., Fu, Q., Yin, C., 2009.“Phosphorus sorption and sedimentation in a multi-pond system within a headstream agricultural watershed.” Water Quality Research Journal of Canada 44(3):243-252.
Li, D., Zheng, B., Chu, Z., et al., 2019.“Seasonal variations of performance and operation in field-scale storing multi-pond constructed wetlands for nonpoint source pollution mitigation in a plateau lake basin.” Bioresource Technology. 280:295-302.
Longbucco, N., 2010.“Impacts of small water bodies on the hydrological response of small agricultural watersheds.”Southern Illinois University,Carbondale, Illinois.
Marton, J. M., Creed, I. F., Lewis, D., et al., 2015.“Geographically Isolated Wetlands are Important Biogeochemical Reactors on the Landscape.” Bioscience 65(4):408-418.
Mushet. D. M., Calhoun, A. J., Alexander, L. C., et al., 2015.“Geographically isolated wetlands: Rethinking a misnomer.” Wetlands. 35(3):423-431.
Rains, C. M., Fogg, G. E., Harter, T., et al., 2006.“The role of perched aquifers in hydrological connectivity and biogeochemical processes in vernal pool landscapes, Central Valley.” Hydrological Processes 20(5):1157-1175.
Rains, M.C., Leibowitz, S. G., Cohen, M. J., et al., 2015.“Geographically Isolated Wetlands Are Part of the Hydrological Landscape.” Hydrological Processes 30 (1):153-160.
Richardson, C. J., 2003.“Pocosins: Hydrologically isolated or integrated wetlands on the landscape?” Wetlands. 23(3):563−576.
Rodrigues, L. N., Sano, E. E., Steenhuis, T. S., et al., 2012.“Estimation of small reservoir storage capacities with remote sensing in the Brazilian Savannah region.” Water Resources Management 26(4):873-882.
Sayer, C. D., and Greaves, H. M., 2020.“Making an impact on UK farmland pond conservation.” Aquatic Conservation Marine and Freshwater Ecosystems 30(9):1821-1828.
Schofield, K. A., Alexander, L. C., Ridley, C. E., et al., 2018.“Biota Connect Aquatic Habitats Throughout Freshwater Ecosystem Mosaics.” Journal of the American Water Resources Association 54(2): 372-399.
Song, W., Jiang, Y., Lei, X., et al., 2015.“Annual runoff and flood regime trend analysis and the relation with reservoirs in the Sanchahe River Basin,China.” Quaternary International 380(4):197-206.
Sullivan, S., Rains, M. C., Rodewald, A. D., 2019.“Opinion: The proposed change to the definition of‘waters of the United States’flouts sound science.” Proceedings of the National Academy of Sciences 116(24):11558-11561.
Swartz, T. M., and Miller, J. R., 2021.“The American pond belt: An untold story of conservation challenges and opportunities.” Front. Ecol. Environ. 19(9):501-509.
Takeuchi, K., Ichikawa, K., Elmqvist, T., 2016.“Satoyama landscape as social-ecological system: Historical changes and future perspective.” Current opinion in environmental sustainability 19:30-39.
Thorslund, J., Jarsjo, J., Jaramillo, F., et al., 2017.“Wetlands as large-scale nature-based solutions: Status and challenges for research, engineering and management.” Ecological Engineering 108:489-497.
Tiner R. W., 2003.“Geographically isolated wetlands of the United States.” Wetlands. 23(3):494-516.
Tiner, R.W., Lang, M.W., Klemas, V.V., 2015. Remote Sensing of Wetlands: Applications and Advances. Boca Raton: CRC Press.
Verhoeven, J. T., Arheimer, B., Yin, C., et al., 2006.“Regional and global concerns over wetlands and water quality.” Trends in Ecology & Evolution 21(2):96-103.
Wang, L., Tong, J., Li, Y., 2019.“River chief system (RCS): An experiment on cross-sectoral coordination of watershed governance.” Frontiers of Environmental Science & Engineering 13(4):1-3.
Wang, X., Yang, W., Melesse, A. M., 2008.“Using hydrologic equivalent wetland concept within SWAT to estimate streamflow in watersheds with numerous wetlands.” Transactions of the American Society of Agricultural and Biological Engineers 51(1):55-72.
Wang, X., and Zhang, F., 2018.“Multi-scale analysis of the relationship between landscape patterns and a water quality index (WQI) based on a stepwise linear regression (SLR) and geographically weighted regression(GWR) in the Ebinur Lake oasis.” Environmental Science and Pollution Research 25(7):7033-7048.
Wen, J., Chen, B. H., Junting, M., et al., 2017.“A WebGIS-based flood control management system for small reservoirs: A case study in the lower reaches of the Yangtze River.” Journal of Hydroinformatics 19(2):299-314.
Werner, M., Schellekens, J., Gijsbers, P., et al., 2013.“The Delft-FEWS flow forecasting system.” Environmental Modelling & Software 40: 65-77.
Whigham, D. F.; Chitterling, C.; Palmer, B., 1988.“Impacts of freshwater wetlands on water quality: A landscape perspective.” Journal of Environmental Management 12 (5):663-671.
Whigham, D. F., and Jordan, T. E., 2003.“Isolated wetlands and water quality.” Wetlands. 23 (3):541−549.
Wu, Q., Lane, C. R., Li, X., et al., 2019.“Integrating LiDAR data and multi-temporal aerial imagery to map wetland inundation dynamics using Google Earth Engine.” Remote Sensing of Environment 228:1-13.
Xia, Y., Ti, C., She, D., et al., 2016.“Linking river nutrient concentrations to land use and rainfall in a paddy agriculture-urban area gradient watershed in southeast China.” Science of the Total Environment 566:1094-1105.
Xu, W., Fan, X., Ma, J., et al., 2019.“Hidden loss of wetlands in China.” Current Biology 29 (18):3065-3071.
Yasarer, L. M., Bingner, R. L., Momm, H. G., 2018.“Characterizing ponds in a watershed simulation and evaluating their influence on streamflow in a Mississippi watershed.” Hydrological Sciences Journal 63(2):302-311.
Yeo, I. Y., Lee, S., Lang, M. W., et al., 2019.“Mapping landscape-level hydrological connectivity of headwater wetlands to downstream waters:A catchment modeling approach-Part 2.” Science of the Total Environment 653:1557-1570.
Yin, C., Shan, B., Mao, Z., 2006.“Sustainable water management by using wetlands in catchments with intensive land use.”In: Wetlands and natural resource management, Ecological Studies , vol 190. Berlin: Springer.
Yu, K.J., Jiang, Q.Z., Wang, Z.F., et al., 2015.“The Research progress and prospect of Beitang landscape.” Areal Research and Development 34(3):130-136.
Zeng, L., and Chu, X., 2021.“Integrating depression storages and their spatial distribution in watershed-scale hydrologic modeling.” Advances in Water Resources 151(8):103911.
Zhang, W., Li, H., Pueppke, S. G., et al., 2020.“Nutrient loss is sensitive to land cover changes and slope gradients of agricultural hillsides: Evidence from four contrasting pond systems in a hilly catchment.” Agricultural Water Management 237(12):106165.