Advances in the reintroduction of rare and endangered wild plant species

Peng SL. Studies and Practices of Restoration Ecology in Tropical and Subtropical Area. Beijing: Science Press, 2003

Ren H, Zhang QM, Lu HF, Liu H, Guo Q, Wang J, Jian S, Bao H. Wild plant species with extremely small populations require conservation and reintroduction in China. AMBIO, 2012, 41: 913–917

Secretary of the Convention on biodiversity. The Global Strategy for Plant Conservation. 2005

The editorial committee of “China’s strategy for plant conservation. China’s Strategy for Plant Conservation. Guangzhou: Guangdong Sciences and Technology Press, 2008

Ren H. The Theory and Practice of Building Scientific Botanical Gardens. Beijing: Science Press, 2006

Huang HW, Zhang Z. The status and prospect of plant introduction and ex-situ conservation in China. Biodiver, 2012, 20: 559–571

Maunder M. Plant reintroduction: an overview. Biodivers Conserv, 1992, 1: 51–61

Guerrant EO, Kaye TN. Reintroduction of rare and endangered plants: common factors, questions and approaches. Aust J Bot, 2007, 55: 362–370

Griffith B, Scott JM, Carpenter JW, Reed C. Translocation as a species conservation tool: status and strategy. Science, 1989, 245: 477–480

Akeroyd J, Jackson PW. A Handbook for Botanic Gardens on the Reintroduction of Plants to the Wild. Richmond: BGCI, 1995

Ren H, Liu Q, Li LH. Introduction to Restoration Ecology. Beijing: Science Press, 2008

Zhou X, Gao JY. Reintroduction of rare and endangered plant species: theory and practice. Biodiver, 2011, 19: 97–105

Seddon PJ. From reintroduction to assisted colonization: moving along the conservation translocation spectrum. Restor Ecol, 2010, 18: 796–802

Council of Europe. Recommendation No. R.(85)15 of the Committee of Ministers on the reintroduction of wildlife species. 4th Meeting. 1985

IUCN. Guidelines for Re-introductions. Prepared by the IUCN/SSC Re-introduction Specialist Group. IUCN Gland, Switzerland and Cambridge, UK, 1998

IUCN. Guidelines for the in situ Re-introduction and Translocation of African and Asian Rhinoceros. IUCN Gland, Switzerland, 2009

Polak T, Saltz D. Reintroduction as an ecosystem restoration technique. Conserv Biol, 2011, 25: 424–425

Maschinski J, Haskins KE. Plant Reintroduction in a Changing Climate: Promises and Perils. Washington, DC: Island Press, 2012

Albrecht MA, Guerrant EO, Maschinski J, Albrecht MA, Guerrant EO, Maschinski J, Kennedy KL. A long-term view of rare plant reintroduction. Biol Conserv, 2011, 144: 2557–2558

Sheean VA, Manning AD, Lindenmayer DB. Armstrong DP, Maloney RF. An assessment of scientific approaches towards species relocations in Australia. Austral Ecology, 2012, 37: 204–215

Macdonald DW, Willis KJ, Moehrenschlager A, Shier DM, Moorhouse TP, Price MRS. Righting past wrongs and ensuring the future. Key Topics Conserv Biol, 2013, 2: 405–429

Falk DA, Millar CI, Olwell M. Restoring Diversity: Strategies for the Reintroduction of Endangered Plants. Washington, DC: Island Press, 1996

Ewen JG, Armstrong DP, Parker KA, Seddon PJ, eds. Reintroduction Biology: Integrating Science and Management. Chichester: John Wiley & Sons, Ltd., 2012

Andel J, Aronson J. Restoration Ecology: The New Frontier. 2nd ed. Blackwell, 2012. 315–359

Kang M, Ye QG, Huang HW. Genetic risks in ex-situ conservation of plants. Hereditas (Beijing), 2005, 27: 160–165

Zhao LL, Sun WB, Yang JB. Development and characterization of microsatellite markers the critically endangered species Acer yangbiense (Aceraceae). Am J Bot, 2011, 98: e247–e249

Sun WB, Yin Q. Ex-situ conserving the Yangbi maple Acer yangbiense in China. Oryx, 2009, 42: 461–462

Wang ZF, Ren H, Li ZC, Zhang QM, Liang KM, Ye WH, Wang ZM. Local genetic structure in the critically endangered, cave-associated perennial herb Primulina tabacum (Gesneriaceae). Biol J Linn Society, 2013, 109: 747–756

Ren H, Zhang QM, Wang ZF, Guo QF, Wang J, Liu N, Liang KM. Conservation and possible reintroduction of an endangered plant based on an analysis of community ecology: a case study of Primulina tabacum Hance in China. Plant Spec Biol, 2010, 25: 43–50

Tollington S, Jones CG, Greenwood A, Tatayahe V, Raisina C, Burkeb T, Dawsonb DA, Groombridgea JJ. Long-term, fine-scale temporal patterns of genetic diversity in the restored Mauritius parakeet reveal genetic impacts of management and associated demographic effects on reintroduction programmes. Biol Conserv, 2013, 161: 28–38

Lauterbach D, Burkart M, Gemeinholzer B. Rapid genetic differentiation between ex situ and their in situ source populations: an example of the endangered Silene otites (Caryophyllaceae). Bot J Linn Soc, 2012, 168: 64–75

Hoegh-Guldberg O, Hughes L, McIntyre S, Lindenmayer DB, Parmesan C, Possingham HP, Thomas CD. Assisted colonization and rapid climate change. Science, 2008, 321: 345–346

Adhikari E, Barika SK, Upadhaya K. Habitat distribution modelling for reintroduction of Ilex khasiana Purk., a critically endangered tree species of northeastern India. Ecol Eng, 2012, 40: 37–43

Lawrence BA, Kaye TN. Reintroduction of Castilleja levisecta: effects of ecological similarity, source population genetics, and habitat quality. Restor Ecol, 2011, 19: 166–176

Dalrymple SE, Moehrenschlager A. “Words matter.” A response to Jørgensen’s treatment of historic range and definitions of reintroduction. Restor Ecol, 2013, 21: 156–158

Maschinski J, Wright S J, Koptur S, Pinto-Torres EC. When is local the best paradigm? Breeding history influences conservation reintroduction survival and population trajectories in times of extreme climate events. Biol Conserv, 2013, 159: 277–284

Venesky MD, Mendelson JR, Sears BF, Stiling P, Rohr JR. Selecting for tolerance against pathogens and herbivores to enhance success of reintroduction and translocation. Conserv Biol, 2012, 26: 586–592

Ren H, Zeng SJ, Li LN, et al. Community ecology and reintroduction of Tigridiopalma magnifica, a rare and endangered herb. Oryx, 2012, 46: 391–398

Maunder M, Byers O. Technical guidelines on the management of ex situ populations for conservation. Oryx, 2004, 38: 342–346

Schwartz MW, Martin TG. Translocation of imperiled species under changing climates. Ann N Y Acad Sci, 2013, 1286: 15–28

Guo QF. Intercontinental biotic invasions: what can we learn from native populations and habitats? Biol Invas, 2006, 8: 1451–1459

Ricciardi A, Simberloff D. Assisted colonization is not a viable conservation strategy. Trends Ecol Evol, 2009, 24: 248–253

Wagenius S, Dykstra AB, Ridley CE, Shaw RG. Seedling recruitment in the long-lived perennial, Echinacea angustifolia: a 10-year experiment. Restor Ecol, 2012, 20: 352–359

Ren H, Wang J. Recruitment limitations of native tree species under plantation: a preliminary review. Chin J Appl Ecol, 2007, 18: 1855–1860

Godefroid S, Rucquoij S, Koedam N. To what extent do forest herbs recover after clearcutting in beech forest? Forest Ecol Manag, 2005, 210: 39–53

Vieira DLM, Scariot A. Principles of natural regeneration of tropical dry forests for restoration. Restor Ecol, 2006, 14: 11–20

Wang J, Ren H, Yang L, Duan WJ. Establishment and early growth of introduced indigenous tree species in typical plantations and shrubland in South China. Forest Ecol Manag, 2009, 258: 1293–1300

Guerrant EO, Havens K, Maunder M. Ex-situ Plant Conservation: Supporting Species Survival in the Wild. Washington, DC: Island Press, 2004

Ren H, Yang L, Liu N. Nurse plant theory and its application in ecological restoration in lower-subtropics of China. Prog Naturl Sci, 2008, 18: 137–142

Ren H, Ma GH, Zhang QM, Guo QF, Wang J, Wang ZF. Moss is a key nurse plant for reintroduction of the endangered herb, Primulina tabacum Hance. Plant Ecol, 2010, 209: 313–320

Padilla FM, Pugnaire FI. The role of nurse plants in the restoration of degraded environments. Front iEcol Environ, 2006, 4: 196–202

Yang L, Ren H, Liu N, Wang J. The shrub Rhodomyrtus tomentosa acts as a nurse plant for seedlings differing in shade tolerance in degraded land of South China. J Veg Sci, 2010, 21: 262–272

Drayton B, Primack RB. Success rates for reintroductions of eight perennial plant species after 15 years. Restor Ecol, 2012, 20: 299–303

Pavlik BM. Defining and measuring success. In: Falk DA, Millar CI, Olwell M, eds. Restoring Diversity: Strategies for the Reintroduction of Endangered Plants. Island Press: Washington, DC, 1996. 127–155

Rayburn AP. Recognition and utilization of positive plant interactions may increase plant reintroduction success. Biol Conserv, 2011, 144: 1296

Armstrong DP, Seddon PJ. Directions in reintroduction biology. Trends Ecol Evol, 2008, 23: 20–25

Rout TM, Hauser CE, Possingham HP. Minimise long-term loss or maximise short-term gain? Optimal translocation strategies for threatened species. Ecol Model, 2007, 201: 67–74

Godefroid S, Vanderborght T. Plant reintroductions: the need for a global database. Biodivers Conserv, 2011, 20: 3683–3688

Godefroid S, Piazza C, Rossi G, Buord S, Stevens AD, Aguraiuja R, Cowell C, Weekley CW, Vogg G, Iriondo JM, Johnson I, Dixon B, Gordon D, Magnanon S, Valentin B, Bjureke K, Koopman R, Vicens M, Virevaire M, Vanderborght T. How successful are plant species reintroductions? Biol Conserv, 2011, 144: 672–682

Montalvo AM, Williams SL, Rice KJ. Restoration biology: a population biology perspective. Restor Ecol, 1997, 5: 277–290

Rout TM, Hauser CE, Possingham HP. Optimal adaptive management for the translocation of a threatened species. Ecol Appl, 2009, 19: 515–526

Jacobs DF, Dalgleish HJ, Nelson CD. A conceptual framework for restoration of threatened plants: the effective model of American chestnut (Castanea dentata) Reintroduction. New Phytol, 2013, 197: 378–393