Count,Full citation,DOI,Used in Tier 1 (qualitative success ranking) y/n,Used in Tier 2 (vote count) y/n,Used in Tier 3 (meta-analysis) y/n 1,"Arnold, S. Impact of Restoration Practices on Mycorrhizal Inoculum Potential in a Semi-Arid Riparian Ecosystem. Masters Abstracts International. Vol. 51, no. 04, 41 p. 2012. (2012). **",ISBN: 9781267825735,y,y,y 2,"Barz, D., Watson, R., Kanney, J., Roberts, J. & Groeneveld, D. Cost/Benefit Considerations for Recent Saltcedar Control, Middle Pecos River, New Mexico. Environ. Manage. 43, 282–298 (2009). **",10.1007/s00267-008-9156-9,y,y,y 3,"Bateman, H. L., Chung-MacCoubrey, A. & Snell, H. L. Impact of Non-Native Plant Removal on Lizards in Riparian Habitats in the Southwestern United States. Restor. Ecol. 16, 180–190 (2008). **",10.1111/j.1526-100X.2007.00361.x,y,y,y 4,"Bateman, H., Chung-MacCoubrey, A., Snell, H. & Finch, D. Species Richness of Snakes Middle Riparian Forest in NM. Herpetol. Conserv. Biol. 4, 1–8 (2009). **","ISSN: 2151-0733, 1931-7603",y,y,y 5,"Bateman, H. L., Merritt, D. M. & Johnson, J. B. Riparian forest restoration: Conflicting goals, trade-offs, and measures of success. Sustainability 4, 2334–2347 (2012). **",10.3390/su4092334,y,y,y 6,"Bateman, H. L., Nagler, P. L. & Glenn, E. P. Plot- and landscape-level changes in climate and vegetation following defoliation of exotic saltcedar (Tamarix sp.) from the biocontrol agent Diorhabda carinulata along a stream in the Mojave Desert (USA). J. Arid Environ. 89, 16–20 (2013). **",10.1016/j.jaridenv.2012.09.011,y,y,y 7,"Bateman, H. L., Merritt, D. M., Glenn, E. P. & Nagler, P. L. Indirect effects of biocontrol of an invasive riparian plant (Tamarix) alters habitat and reduces herpetofauna abundance. Biol. Invasions 17, 87–97 (2015). **",10.1007/s10530-014-0707-0,y,y,y 8,"Bay, R. F. & Sher, A. A. Success of Active Revegetation after Tamarix Removal in Riparian Ecosystems of the Southwestern United States: A Quantitative Assessment of Past Restoration Projects. Restor. Ecol. 16, 113–128 (2008).",10.1111/j.1526-100X.2007.00359.x,y,n,n 9,"Bedford, A., Sankey, T. T., Sankey, J. B., Durning, L. & Ralston, B. E. Remote sensing of tamarisk beetle (Diorhabda carinulata) impacts along 412 km of the Colorado River in the Grand Canyon, Arizona, USA. Ecol. Indic. 89, 365–375 (2018). *",10.1016/J.ECOLIND.2018.02.026,y,y,n 10,"Belote, R. T., Makarick, L. J., Kearsley, M. J. C. & Lauver, C. L. Tamarisk Removal in Grand Canyon National Park: Changing the Native-- Non-native Relationship as a Restoration Goal. Ecol. Restor. 28, 449–459 (2010). **",10.0.13.40/er.28.4.449,y,y,y 11,"Bhattacharjee, J., Taylor, J. P. & Smith, L. M. Controlled flooding and staged drawdown for restoration of native cottonwoods in the Middle Rio Grande Valley, New Mexico, USA. Wetlands 26, 691–702 (2006).",10.1672/0277-5212(2006)26[691:CFASDF]2.0.CO;2,y,n,n 12,"Bhattacharjee, J., Taylor, J. P., Smith, L. M. & Spence, L. E. The importance of soil characteristics in determining survival of first-year cottonwood seedlings in altered riparian habitats. Restor. Ecol. 16, 563–571 (2008).",10.1111/j.1526-100X.2007.00328.x,y,n,n 13,"Bhattacharjee, J., Taylor, J. P., Smith, L. M. & Haukos, D. A. Seedling competition between native cottonwood and exotic saltcedar: Implications for restoration. Biol. Invasions 11, 1777–1787 (2009).",10.1007/s10530-008-9357-4,y,n,n 14,"Briggs, M. K. & Cornelius, S. Opportunities for ecological improvement along the Lower Colorado River and Delta. Wetlands 18, 513–529 (1998).",10.1007/BF03161669,y,n,n 15,"Bunting, D. P., Kurc, S. A. & Grabau, M. R. Using existing agricultural infrastructure for restoration practices: Factors influencing successful establishment of Populus fremontii over Tamarix ramosissima. J. Arid Environ. 75, 851–860 (2011).",10.1016/j.jaridenv.2011.03.013,y,n,n 16,"Bunting, D. P., Kurc, S. & Grabau, M. Long-term vegetation dynamics after high-density seedling establishment: Implications for riparian restoration and management. River Res. Appl. 29, 1119–1130 (2013).",10.1002/rra,y,n,n 17,"Conrad, B., Acharya, K., Dudley, T. L. & Bean, D. W. Impact of episodic herbivory by the tamarisk leaf beetle on leaf litter nitrogen and stem starch content: A short communication. J. Arid Environ. 94, 76–79 (2013). **",10.1016/J.JARIDENV.2013.03.005,y,y,y 18,"Craine, E. B. et al. Physiological Response of Tamarix ramosissima (Tamaricaceae) to a Biological Control Agent. West. North Am. Nat. 76, 339–351 (2016). **",10.3398/064.076.0310,y,y,y 19,"Darrah, A. J., Greeney, H. F. & van Riper, C. Importance of the 2014 Colorado River Delta pulse flow for migratory songbirds: Insights from foraging behavior. Ecol. Eng. 106, 784–790 (2017).",10.1016/j.ecoleng.2016.06.001,y,n,n 20,"Darrah, A. J. & van Riper, C. Riparian bird density decline in response to biocontrol of Tamarix from riparian ecosystems along the Dolores River in SW Colorado, USA. Biol. Invasions 20, 709–720 (2018). **",10.1007/s10530-017-1569-z,y,y,y 21,"Dennison, P. E., Nagler, P. L., Hultine, K. R., Glenn, E. P. & Ehleringer, J. R. Remote monitoring of tamarisk defoliation and evapotranspiration following saltcedar leaf beetle attack. Remote Sens. Environ. 113, 1462–1472 (2009). **",10.1016/j.rse.2008.05.022,y,y,y 22,"Douglass, C. H. Ecosystem impacts of tamarisk (Tamarix spp.) management in the Arkansas River watershed, Colorado: Effects of disturbance and herbicide residues on passive plant community restoration. ProQuest Dissertations and Theses (2013). **",ISBN: 9781303151965,y,y,y 23,"Drus, G. M., Dudley, T. L., Brooks, M. L. & Matchett, J. R. The effect of leaf beetle herbivory on the fire behaviour of tamarisk (Tamarix ramosissima Lebed.). Int. J. Wildl. Fire 22, 446–458 (2013). **",10.1071/WF10089,y,y,y 24,"Drus, G. M. et al. Synergistic interactions between leaf beetle herbivory and fire enhance tamarisk (Tamarix spp.) mortality. Biol. Control 77, 29–40 (2014). **",10.1016/j.biocontrol.2014.04.010,y,y,y 25,"Eckberg, J. R. & Rice, N. A. Northern tamarisk beetle (Diorhabda carinulata) effects on established tamarisk-feeding invertebrate populations along the Las Vegas Wash, Clark County, Nevada. Southwest. Nat. 61, 101–107 (2016). **",10.1894/15-00071R3.1,y,y,y 26,"Gladwin, D. N. & Roelle, J. E. Survival of plains cottonwood (Populus deltoides subsp. monilifera) and saltcedar (Tamarix ramosissima) seedlings in response to flooding. Wetlands 18, 669–674 (1998). **",10.1007/BF03161681,y,y,y 27,"González, E. et al. Integrative conservation of riparian zones. Biol. Conserv. 211, 20–29 (2017). **",10.1016/j.biocon.2016.10.035,y,y,y 28,"González, E. et al. Vegetation response to invasive Tamarix control in southwestern U.S. rivers: a collaborative study including 416 sites. Ecol. Appl. 27, 1789–1804 (2017). **",10.1002/eap.1566,y,y,y 29,"González, E., Shafroth, P. B., Lee, S. R., Ostoja, S. M. & Brooks, M. L. Combined effects of biological control of an invasive shrub and fluvial processes on riparian vegetation dynamics. Biol. Invasions 22, 2339–2356 (2020). **",10.1007/s10530-020-02259-9,y,y,y 30,"González, E., Shafroth, P. B., Lee, S. R., Reed, S. C. & Belnap, J. Riparian Plant Communities Remain Stable in Response to a Second Cycle of Tamarix Biocontrol Defoliation. Wetlands 1863–1875 (2020). **",10.1007/s13157-020-01381-7,y,y,y 31,"Grabau, M. R. et al. Direct seeding for riparian tree re-vegetation: Small-scale field study of seeding methods and irrigation techniques. Ecol. Eng. 37, 864–872 (2011).",10.1016/j.ecoleng.2011.01.003,y,n,n 32,"Harms, R. S. & Hiebert, R. D. Vegetation Response Following Invasive Tamarisk (Tamarix spp.) Removal and Implications for Riparian Restoration. Restor. Ecol. 14, 461 (2006). **","ISSN: 1061-2971 , 1526-100X",y,y,y 33,"Hart, C. R., White, L. D., McDonald, A. & Sheng, Z. Saltcedar control and water salvage on the Pecos river, Texas, 1999–2003. J. Environ. Manage. 75, 399–409 (2005). *",10.0.3.248/j.jenvman.2004.11.023,y,y,n 34,"Henry, A. L., González, E., Robinson, W. W., Bourgeois, B. & Sher, A. A. Spatial modeling improves understanding patterns of invasive species defoliation by a biocontrol herbivore. Biological Invasions 1–18 (2018) doi:10.1007/s10530-018-1794-0. **",10.1007/s10530-018-1794-0,y,y,y 35,"Hudgeons, J. L. et al. Defoliation by introduced Diorhabda elongata leaf beetles (Coleoptera: Chrysomelidae) reduces carbohydrate reserves and regrowth of Tamarix (Tamaricaceae). Biol. Control 43, 213–221 (2007). **",10.3958/0147-1724-32.3.157,y,y,y 36,"Hultine, K. R. et al. Sap flux-scaled transpiration by tamarisk (Tamarix spp.) before, during and after episodic defoliation by the saltcedar leaf beetle (Diorhabda carinulata). Agric. For. Meteorol. 150, 1467–1475 (2010). *",10.1016/j.agrformet.2010.07.009,y,y,n 37,"Hultine, K. R. et al. Patterns of herbivory-induced mortality of a dominant non-native tree/shrub (Tamarix spp.) in a southwestern US watershed. Biol. Invasions 17, 1729–1742 (2015). **",10.1007/s10530-014-0829-4,y,y,y 38,"Jaeger, K. L. & Wohl, E. Channel response in a semiarid stream to removal of tamarisk and Russian olive. Water Resour. Res. 47, (2011). *",10.1029/2009WR008741,y,y,n 39,"Ji, W., Wang, L. & Knutson, A. E. Detection of the spatiotemporal patterns of beetle-induced tamarisk (Tamarix spp.) defoliation along the Lower Rio Grande using Landsat TM images. Remote Sens. Environ. 193, 76 (2017).",10.1016/j.rse.2017.02.019,y,n,n 40,"Keller, D. L., Laub, B. G., Birdsey, P. & Dean, D. J. Effects of Flooding and Tamarisk Removal on Habitat for Sensitive Fish Species in the San Rafael River, Utah: Implications for Fish Habitat Enhancement and Future Restoration Efforts. Environ. Manage. 54, 465–478 (2014). *",10.1007/s00267-014-0318-7,y,y,n 41,"Kennard, D. K. et al. Tamarix dieback and vegetation patterns following release of the northern tamarisk beetle (Diorhabda carinulata) in western Colorado. Biol. Control 101, 114–122 (2016). **",10.1016/j.biocontrol.2016.07.004,y,y,y 42,"Kennedy, T. A., Finlay, J. C. & Hobbie, S. E. Eradication of invasive Tamarix ramosissima along a desert stream increases native fish density. Ecol. Appl. 15, 2072–2083 (2005). **",10.1890/04-1533,y,y,y 43,"Liebert, R., Huntington, J., Morton, C., Sueki, S. & Acharya, K. Reduced evapotranspiration from leaf beetle induced tamarisk defoliation in the Lower Virgin River using satellite-based energy balance. Ecohydrology 9, 179–193 (2016). *",10.1002/eco.1623,y,y,n 44,"Longland, W. S. Biological Control of Saltcedar (Tamarix spp.) by Saltcedar Leaf Beetles (Diorhabda spp.): Effects on Small Mammals. West. North Am. Nat. 74, 378–385 (2014).",10.3398/064.074.0403,y,n,n 45,"Mahoney, S. M., Mike, J. B., Parker, J. M., Lassiter, L. S. & Whitham, T. G. Selection for genetics-based architecture traits in a native cottonwood negatively affects invasive tamarisk in a restoration field trial. Restor. Ecol. 1–23 (2018) doi:10.1111/rec.12840.",10.1111/rec.12840,y,n,n 46,"Martinet, M. C. et al. On groundwater fluctuations, evapotranspiration, and understory removal in riparian corridors. Water Resour. Res. 45, 1–19 (2009). **",10.1029/2008WR007152,y,y,y 47,"McDaniel, K. C. & Taylor, J. P. Saltcedar recovery after herbicide-burn and mechanical clearing practices. J. Range Manag. 56, 439–445 (2003). *",10.2307/4003834,y,y,n 48,"McShane, R. R. et al. Distribution of invasive and native riparian woody plants across the western USA in relation to climate, river flow, floodplain geometry and patterns of introduction. Ecography (Cop.). 38, 1254–1265 (2015).",10.1111/ecog.01285,y,n,n 49,"Meng, R. et al. Detection of tamarisk defoliation by the northern tamarisk beetle based on multitemporal landsat 5 thematic mapper imagery. GIScience Remote Sens. 49, 510–537 (2012).",10.2747/1548-1603.49.4.510,y,n,n 50,"Moore, G. W. & Owens, M. K. Transpirational Water Loss in Invaded and Restored Semiarid Riparian Forests. Restor. Ecol. 20, 346–351 (2012). **",10.0.4.87/j.1526-100X.2011.00774.x,y,y,y 51,"Mosher, K. R. & Bateman, H. L. The effects of riparian restoration following saltcedar (Tamarix spp.) biocontrol on habitat and herpetofauna along a desert stream. Restor. Ecol. 24, 71–80 (2016). **",10.1111/rec.12273,y,y,y 52,"Muldavin, E. H., Milford, E. R., Umbreit, N. E. & Chauvin, Y. D. Long-term Outcomes of Natural-process Riparian Restoration on a Regulated River Site: The Rio Grande Albuquerque Overbank Project after 16 Years. Ecol. Restor. 35, 341–353 (2017). **",10.0.13.40/er.35.4.341,y,y,y 53,"Murray, L. et al. Integrating conventional management methods with biological control for enhanced Tamarix management. Invasive Plant Sci. Manag. 12, 176–185 (2019). **",10.1017/inp.2019.20,y,y,y 54,"Nagler, P. L. et al. Regeneration of Native Trees in the Presence of Invasive Saltcedar in the Colorado River Delta, Mexico. Conserv. Biol. 19, 1842–1852 (2005).",10.1111/j.1523-1739.2005.00234.x,y,n,n 55,"Nagler, P. L., Tim Brown, Kevin R. Hultine, Daniel W. Bean, Philip E. Dennison, R. Scott Murray, and Edward P. Glenn. ""Regional scale impacts of Tamarix leaf beetles (Diorhabda carinulata) on the water availability of western US rivers as determined by multi-scale remote sensing methods."" Remote Sens. Environ. 118, 227-240 (2012).",10.1016/j.rse.2011.11.011,y,y,y 56,"Nagler, P. L. et al. Rapid dispersal of saltcedar (Tamarix spp.) biocontrol beetles (Diorhabda carinulata) on a desert river detected by phenocams, MODIS imagery and ground observations. Remote Sens. Environ. 140, 206–219 (2014). **",10.1016/J.RSE.2013.08.017,y,y,y 57,"Nagler, P. L. et al. Northern tamarisk beetle (Diorhabda carinulata) and tamarisk (Tamarix spp.) interactions in the Colorado River basin. Restor. Ecol. 26, 348–359 (2018). **",10.1111/rec.12575,y,y,y 58,"Nagler, P. L. et al. Ecohydrological responses to surface flow across borders: Two decades of changes in vegetation greenness and water use in the riparian corridor of the Colorado River delta. Hydrol. Process. 34, 4851–4883 (2020). **",10.1002/hyp.13911,y,y,y 59,"Nelson, S. M. & Wydoski, R. Riparian Butterfly (Papilionoidea and Hesperioidea) Assemblages Associated with Tamarix-Dominated, Native Vegetation–Dominated, and Tamarix Removal Sites along the Arkansas River, Colorado, U.S.A. Restor. Ecol. 16, 168–179 (2008). **",10.0.4.87/j.1526-100X.2007.00358.x,y,y,y 60,"Ostoja, S. M., Brooks, M. L., Dudley, T. L. & Lee, S. R. Short-Term Vegetation Response Following Mechanical Control of Saltcedar (Tamarix spp.) on the Virgin River, Nevada, USA. Invasive Plant Sci. Manag. 7, 310–319 (2014). **",10.1614/IPSM-D-13-00064.1,y,y,y 61,"Pattison, R. R., D’Antonio, C. M., Dudley, T. L., Allander, K. K. & Rice, B. Early impacts of biological control on canopy cover and water use of the invasive saltcedar tree (Tamarix spp.) in western Nevada, USA. Oecologia 165, 605–616 (2011). **",10.0.3.239/s00442-010-1859-y,y,y,y 62,"Pattison, R. R., D’Antonio, C. M. & Dudley, T. L. Biological control reduces growth, and alters water relations of the saltcedar tree (Tamarix spp.) in western Nevada, USA. J. Arid Environ. 75, 346–352 (2011). **",10.0.3.248/j.jaridenv.2010.11.006,y,y,y 63,"Perignon, M. C., Tucker, G. E., Griffin, E. R. & Friedman, J. M. Effects of riparian vegetation on topographic change during a large flood event, Rio Puerco, New Mexico, USA. J. Geophys. Res. F. Earth Surf. 118, 1193–1209 (2013). *",10.1002/jgrf.20073,y,y,n 64,"Pollen-Bankhead, N., Simon, A., Jaeger, K. & Wohl, E. Destabilization of streambanks by removal of invasive species in Canyon de Chelly National Monument, Arizona. Geomorphology 103, 363–374 (2009).",10.0.3.248/j.geomorph.2008.07.004,y,n,n 65,"McMaster, M. A. & Chaudhry, T. A. Riparian Rehabilitation along the Colorado River: Successes and Challenges of a Pilot Project. (2017). In Ralston, B. E. & Sarr, D. A. Case studies of riparian and watershed restoration in the southwestern United States—Principles, challenges, and successes. U.S. Geological Survey Open-File Report vol. 1091 https://pubs.er.usgs.gov/publication/ofr20171091 (2017).",10.3133/ofr20171091,y,n,n 66,"Reynolds, L. V. & Cooper, D. J. Riparian restoration following tamarisk and Russian olive control in Canyon de Chelly National Monument, Arizona. (2017). In Ralston, B. E. & Sarr, D. A. Case studies of riparian and watershed restoration in the southwestern United States—Principles, challenges, and successes. U.S. Geological Survey Open-File Report vol. 1091 https://pubs.er.usgs.gov/publication/ofr20171091 (2017).",10.3133/ofr20171091,y,n,n 67,"Trathnigg, H. K. & Phillips, F. O. Riparian and Wetland Restoration Effects on Bird and Butterfly Communities on the Colorado River. (2017). In Ralston, B. E. & Sarr, D. A. Case studies of riparian and watershed restoration in the southwestern United States—Principles, challenges, and successes. U.S. Geological Survey Open-File Report vol. 1091 https://pubs.er.usgs.gov/publication/ofr20171091 (2017).",10.3133/ofr20171091,y,n,n 68,"Shanahan, S. A. & Eckberg, J. R. Revegetating the Las Vegas Wash in the Lower Colorado River Basin. (2017). In Ralston, B. E. & Sarr, D. A. Case studies of riparian and watershed restoration in the southwestern United States—Principles, challenges, and successes. U.S. Geological Survey Open-File Report vol. 1091 https://pubs.er.usgs.gov/publication/ofr20171091 (2017).",10.3133/ofr20171091,y,n,n 69,"Raynor, E. J., Cable, T. T. & Sandercock, B. K. Effects of Tamarix removal on the community dynamics of riparian birds in a semiarid grassland. Restor. Ecol. 25, 778–787 (2017). **",10.1111/rec.12497,y,y,y 70,"Reynolds, L. V & Cooper, D. J. Ecosystem response to removal of exotic riparian shrubs and a transition to upland vegetation. Plant Ecol. 212, 1243–1261 (2011). **",10.1007/s11258-011-9901-7,y,y,y 71,"van Riper, C., Paxton, K. L., O’Brien, C., Shafroth, P. B. & Mcgrath, L. J. Rethinking avian response to Tamarix on the lower Colorado River: A threshold hypothesis. Restor. Ecol. 16, 155–167 (2008).",10.1111/j.1526-100X.2007.00354.x,y,n,n 72,"van Riper, C. et al. Influences of the invasive tamarisk leaf beetle (Diorhabda carinulata) on avian diets along the Dolores River in Southwestern Colorado USA. Biol. Invasions 20, 3145–3159 (2018).",10.3133/ofr20141100,y,n,n 73,"Roelle, J. E. & Gladwin, D. N. Establishment of woody riparian species from natural seedfall at a former gravel pit. Restor. Ecol. 7, 183–192 (1999).",10.1046/j.1526-100X.1999.72011.x,y,n,n 74,"Roelle, J. E., Gladwin, D. N. & Cade, B. S. Establishment, growth, and early survival of woody riparian species at a Colorado gravel pit. West. North Am. Nat. 61, 182–194 (2001).","ISSN: 1527-0904 , 1944-8341",y,n,n 75,"Sankey, T. T., Sankey, J. B., Horne, R. & Bedford, A. Remote Sensing of Tamarisk Biomass, Insect Herbivory, and Defoliation: Novel Methods in the Grand Canyon Region, Arizona. Photogramm. Eng. Remote Sens. 82, 645–652 (2016).",10.14358/PERS.82.8.645,y,n,n 76,"Schlatter, K. J., Grabau, M. R., Shafroth, P. B. & Zamora-Arroyo, F. Integrating active restoration with environmental flows to improve native riparian tree establishment in the Colorado River Delta. Ecol. Eng. 106, 661–674 (2017). **",10.1016/j.ecoleng.2017.02.015,y,y,y 77,"Shafroth, P. B. et al. A large-scale environmental flow experiment for riparian restoration in the Colorado River Delta. Ecol. Eng. 106, 645–660 (2017).",10.1016/j.ecoleng.2017.02.016,y,n,n 78,"Shanahan, S. A., Nelson, S. M., Van Dooremolen, D. M. & Eckberg, J. R. Restoring habitat for riparian birds in the lower Colorado River watershed: An example from the Las Vegas Wash, Nevada. J. Arid Environ. 75, 1182–1190 (2011).",10.1016/j.jaridenv.2011.06.017,y,n,n 79,"Sher, A. A., Marshall, D. L. & Taylor, J. P. Establishment patterns of native Populus and Salix in the presence of invasive nonnative Tamarix. Ecol. Appl. 12, 760–772 (2002). ",10.1890/1051-0761(2002)012[0760:EPONPA]2.0.CO;2,y,n,n 80,"Sher, A. A., Gieck, S., Brown, C. S. & Nissen, S. J. First-year responses of cheatgrass following Tamarix spp. control and restoration-related disturbances. Restor. Ecol. 16, 129–135 (2008). **",10.1111/j.1526-100X.2008.00355.x,y,y,y 81,"Sher, A. A. et al. Native species recovery after reduction of an invasive tree by biological control with and without active removal. Ecol. Eng. 111, 167–175 (2018). **",10.1016/j.ecoleng.2017.11.018,y,y,y 82,"Sher, A. A. et al. The Human Element of Restoration Success: Manager Characteristics Affect Vegetation Recovery Following Invasive Tamarix Control. Wetlands 40, 1877–1895 (2020).",10.1007/s13157-020-01370-w,y,n,n 83,"Smith, L. M., Sprenger, M. D. & Taylor, J. P. Effects of discing saltcedar seedlings during riparian restoration efforts. Southwest. Nat. 47, 598–601 (2002).",10.2307/3672663,y,n,n 84,"Smith, D. M., Finch, D. M. & Hawksworth, D. L. Black-Chinned Hummingbird Nest-Site Selection and Nest Survival in Response to Fuel Reduction in a Southwestern Riparian Forest. Condor 111, 641–652 (2009). **",10.1525/cond.2009.090089,y,y,y 85,"Snyder, K. A., Scott, R. L. & McGwire, K. Multiple year effects of a biological control agent (Diorhabda carinulata) on Tamarix (saltcedar) ecosystem exchanges of carbon dioxide and water. Agric. For. Meteorol. 164, 161–169 (2012). **",10.1016/j.agrformet.2012.03.004,y,y,y 86,"Snyder, K. A. & Scott, R. L. Longer term effects of biological control on tamarisk evapotranspiration and carbon dioxide exchange. Hydrol. Process. 34, 223–236 (2020). **",10.1007/s10530-010-9772-1,y,y,y 87,"Sprenger, M. D., Smith, L. M. & Taylor, J. P. Testing control of saltcedar seedlings using fall flooding. Wetlands 21, 437–441 (2001). **",10.1672/0277-5212(2001)021[0437:TCOSSU]2.0.CO;2,y,y,y 88,"Sprenger, M. D., Smith, L. M. & Taylor, J. P. Restoration of riparian habitat using experimental flooding. Wetlands 22, 49–57 (2002).",10.1672/0277-5212(2002)022[0049:RORHUE]2.0.CO;2,y,n,n 89,"Sueki, S. et al. Defoliation effects of Diorhabda carinulata on tamarisk evapotranspiration and groundwater levels. Ecohydrology 8, 1560–1571 (2015). *",10.1002/eco.1604,y,y,n 90,"Taylor, J. P. & McDaniel, K. C. Restoration of saltcedar (Tamarix sp.)-infested floodplains on the Bosque del Apache National Wildlife Refuge. Weed Technol. 12, 345–352 (1998). **",10.1017/s0890037x0004392x,y,y,y 91,"Taylor, J. P., Wester, D. B. & Smith, L. M. Soil disturbance, flood management, and riparian woody plant establishment in the Rio Grande floodplain. Wetlands 19, 372–382 (1999). *",10.1007/BF03161769,y,y,n 92,"Taylor, J. P., Smith, L. M. & Haukos, D. A. Evaluation Of Woody Plant Restoration In The Middle Rio Grande: Ten Years After. Wetlands 26, 1151–1160 (2006). **",10.1672/0277-5212(2006)26[1151:EOWPRI]2.0.CO;2,y,y,y 93,"Tredick, C. A., Kelly, M. J. & Vaughan, M. R. Impacts of large-scale restoration efforts on black bear habitat use in Canyon de Chelly National Monument, Arizona, United States. J. Mammal. 97, 1065–1073 (2016).",10.1093/jmammal/gyw060,y,n,n 94,"Uselman, S. M., Snyder, K. A. & Blank, R. R. Insect biological control accelerates leaf litter decomposition and alters short-term nutrient dynamics in a Tamarix-invaded riparian ecosystem. Oikos 120, 409–417 (2011). **",10.1016/j.jaridenv.2012.07.017,y,y,y 95,"Vincent, D. W. Riparian Restoration of Senorito Canyon, a Tributary of the Rio Puerco. USFS/et al Desired Futur. Cond. Southwest. Riparian Ecosyst. Bringing Interes. Concerns Together Conf Proc, Albuquerque, NM 253 (1995).",NA,y,n,n 96,"Vincent, K. R., Friedman, J. M. & Griffin, E. R. Erosional Consequence of Saltcedar Control. Environ. Manage. 44, 218–227 (2009). *",10.0.3.239/s00267-009-9314-8,y,y,n