Zoeken

Hoofdstuk 2

Terug

Hoofdstuk 2

Natuurbehoud: omgaan met verandering

Hans Van Dyck


Referenties

  1. Adriaens T, Peymen J & Decleer K, 2007. Natuurverbindingsgebieden in Vlaanderen: achtergronden, afbakening en mogelijke inrichting. Rapporten van het Instituut voor Natuur- en Bosonderzoek 2007(INBO.R.2007.14). Instituut voor Natuur- en Bosonderzoek, Brussel
  2. Adriaens T, Onkelinx T, San Martin G, et al., 2012. Invasieve exoot zorgt voor snelle achteruitgang van inheemse lieveheersbeestjes. Natuur.focus 11: 100-107
  3. Alberti M, 2015. Eco-evolutionary dynamics in an urbanizing planet. Trends in Ecology and Evolution 30: 114-126
  4. Alberti M, Marzluff J & Hunt VM, 2017. Urban driven phenotypic changes: empirical observations and theoretical implications for eco-evolutionary feedback. Philosophical Transactions of the Royal Society B 372: 20160029
  5. Baguette M & Van Dyck H, 2007. Landscape connectivity and animal behavior: functional grain as a key determinant for dispersal. Landscape Ecology 22: 1117-1129
  6. Beketov MA, Kefford BJ, Schäfer RB, et al., 2013. Pesticides reduce regional biodiversity of stream invertebrates. Proceedings of the National Academy of Sciences (USA) 110: 11039-11043
  7. Belgisch Nationaal knooppunt voor het Verdrag inzake biologische diversiteit (red), 2013. Biodiversiteit 2020 – Actualisering van de Belgische Nationale Strategie. Koninklijk Belgisch Instituut voor Natuurwetenschappen, Brussel, 161 p
  8. Bennie J, Davies TW, Cruse D et al., 2016. Ecological effects of artificial light at night on wild plants. Journal of Ecology 104: 611-620
  9. Bobbink R, Hicks K, Galloway J et al., 2010. Global assessment of nitrogen deposition effects on terrestrial plant diversity: a synthesis. Ecological Applications 20: 30-59
  10. Bogaert DCM, 2004. Natuurbeleid in Vlaanderen. Natuurontwikkeling en draagvlak als vernieuwingen? PhD-proefschrift, Katholieke Universiteit Nijmegen
  11. Breckheimer I, Haddad NM, Morris WF et al., 2014. Defining and evaluating the umbrella species concept for conserving and restoring landscape connectivity. Conservation Biology 28: 1584–1593
  12. Carroll SP, Hendry AP, Reznick DN et al., 2007. Evolution on ecological time-scales. Functional Ecology 21: 387–393
  13. Ceulemans T, Merckx R, Hens M et al., 2012. Plant species loss from European semi‐natural grasslands following nutrient enrichment – is it nitrogen or is it phosphorus? Global Ecology and Biogeography 22: 73-82
  14. Clark CM & Tilman D, 2008. Loss of plant species after chronic low-level nitrogen deposition to prairie grasslands. Nature 451: 712-715
  15. Clayton S & Myers G, 2009. Conservation psychology: Understanding and promoting human care for nature. Wiley Blackwell, Oxford, UK
  16. Courtois P, Figuieres C, Mulier C et al., 2018. A cost-benefit approach for prioritizing invasive species. Ecological Economics 146: 607-620
  17. Cross MS, Zavaleta ES, Bachelet D et al., 2012. The adaptation for conservation targets (ACT) framework: a tool for incorporating climate change into natural resource management. Environmental Management 50: 341-351
  18. Da Silva A, Valcu M & Kempenaers B, 2015. Light pollution alters the phenology of dawn and dusk singing in common European songbirds. Philosophical Transactions B 370: 20140126
  19. Davies TW, Bennie J & Gaston KJ, 2015. Street lighting changes the composition of invertebrate communities. Biology Letters 11: 1-4
  20. Davis MA, Chew MK, Hobbs RJ et al., 2011. Don’t judge species on their origins. Nature 474: 153-154
  21. De Blust G & Van Renterghem T, Hoofdstuk 20: Ecosysteemdienst regulatie van geluidsoverlast. (INBO.R.2014.2008296). In: Stevens M et al. (red.), Natuurrapport - Toestand en trend van ecosystemen en ecosysteemdiensten in Vlaanderen. Technisch rapport. Mededelingen van het Instituut voor Natuur- en Bosonderzoek, INBO.M.2014.1988582, Brussel
  22. Demey A, Ameloot E, De Schrijver A et al., 2013. Sleutelrol voor half-parasieten in de biogeochemie van soortenrijke graslanden. Natuur.focus 12: 69-76
  23. Dennis RLH, Shreeve TG & Van Dyck H, 2003. Towards a functional resource-based concept for habitat: a butterfly biology viewpoint. Oikos 102: 417-426
  24. Dennis RLH & Sparks TH, 2006. When is a habitat not a habitat? Dramatic resource use changes under differing weather conditions for the butterfly Plebejus argus. Biological Conservation 129: 291-301
  25. De Schrijver A, Demey A, De Frenne P et al., 2013a. Focus op biogeochemie – Deel 4: Stikstof en biodiversiteit: een onverzoenbaar duo. Natuur.focus 13: 92-102
  26. De Schrijver A, Schelfhout S, Demey A et al., 2013b. Natuurherstel op landbouwgrond: fosfor als bottleneck. Natuur.focus 12: 145-153
  27. De Schrijver A, Wuyts K, Staelens J et al., 2012. Verzuring van ecosystemen. Oorzaken, remedies en gevolgen voor de biodiversiteit. Natuur.focus 11: 136-143
  28. Diamond ML, de Wit A, Molander S et al., 2015. Exploring planetary boundary for chemical pollution. Environment International 78: 8-15
  29. Dickinson JL, Shirk J, Bonter D et al., 2012. The current state of citizen science as a tool for ecological research and public engagement. Frontiers in Ecology and the Environment 10: 291–297
  30. Dekeukeleire D & Janssen R, 2014. A large maternity colony of 85 Bechstein’s bats Myotis bechsteinii in an invasive tree, the Red oak Quercus rubra. Lutra 57: 49-55
  31. Dekeukeleire D, Janssen R, Verstraeten G et al., 2015. Hoe omgaan met vleermuizen bij bestrijding van Amerikaanse eiken? Een case-study in de Nietelbroeken. Natuur.focus 14: 32-34
  32. Demey A, De Frenne P & Verheyen K, 2015. Klimaatadaptatie in natuur- en bosbeheer. Rapport ForNaLab, Universiteit Gent, 41 pp
  33. Diamond JM & May RM, 1976. Island biogeography and conservation: strategy and limitations. Science 193: 1027-1029
  34. Eriksson O, 2013. Species pools in cultural landscapes – niche construction, ecological opportunity and niche shifts. Ecography 36: 403-413
  35. Essl F, Dullinger S, Rabitsch W et al. 2015. Delayed biodiversity change: no time to waste. Trends in Ecology & Evolution 30: 375-378
  36. European Commission, 2015. Mid-term review of the EU Biodiversity Strategy to 2020. Report of the Commission to the European Parliament and the Council. Brussels, 18 p
  37. Feest A, van Swaay C & van Hinsberg A, 2014. Nitrogen deposition and the reduction of butterfly biodiversity quality in the Netherlands. Ecological Indicators 39: 115-119
  38. Francis CD, Ortega CP & Cruz A, 2009. Noise pollution changes avian communities and species interactions. Current Biology 19: 1415-1419
  39. Fuller RA, Irvine KN, Devine-Wright P et al., 2007. Psychological benefits of greenspace increase with biodiversity. Biology Letters 3: 390-394
  40. Gaston KJ, Bennie J, Davies TW et al., 2013. The ecological impacts of nighttime light pollution: a mechanistic appraisal. Biological Reviews 88: 912–927
  41. Gibbons D, Morrissey C & Mineau P, 2015. A review of the direct and indirect effects of neonicotinoides and fipronil on vertebrate wildlife. Environmental Science and Pollution Research 22: 103-118
  42. Gorissen D, Merckx T, Vercoutere B et al., 2004. Veranderd bosgebruik en dagvlinders. Waarom verdwenen dagvlinders uit bossen in Vlaanderen? Landschap 21(2): 85-95
  43. Goulson D, 2013. An overview of the environmental risks posed by neonicotinoid insecticides. Journal of Applied Ecology 50: 977–987
  44. Grantham HS, Bode M, McDonald-Madden E et al., 2010. Effective conservation planning requires learning and adaptation. Frontiers in Ecology and the Environment 8: 431–437
  45. Guetté A, Godet L, Juigner M et al., 2018. Worldwide increase in Artificial Light at Night around protected areas and within biodiversity hotspots. Biological Conservation 223: 97-103
  46. Gurevitch J & Padilla DK, 2004. Are invasive species a major cause of extinctions? Trends in Ecology and Evolution 19: 470-474
  47. Gysels J, 2013. 60 jaar natuurreservaten in Vlaanderen. Een historische terugblik op het begin. Natuur.focus 12: 44-52
  48. Gysels J, Decleer K, Van Dyck H et al., Ruimte(n) voor natuur: beheer en inrichting van natuurgebieden als hoeksteen van het natuurbehoud. Natuur.focus 9: 48-57
  49. Hallmann CA, Foppen RPB, van Turnhout CAM et al., 2014. Declines in insectivorous birds are associated with high neonicotinoid concentration. Nature 511: 341-343
  50. Hairston NG, Ellner SP, Geber MA et al., 2005. Rapid evolution and the convergence of ecological and evolutionary time. Ecology Letters 8: 1114–1127
  51. Heller NE & Zavaleta ES, 2009. Biodiversity management in the face of climate change: a review of 22 years of recommendations. Biological Conservation 142: 14-32
  52. Hendrickx F, Souffreau C, Merckx T et al., 2018. Verstedelijking verandert levensgemeenschappen. Natuur.focus 17: 62-68
  53. Herremans M, 2018. Wetenschap met waarnemingen van vrijwilligers. Een introductie op het themanummer 10 jaar Waarnemingen.be. Natuur.focus 17: 144-146
  54. Holzschuh A, Dormann CF, Tscharntke T et al., 2011. Expansion of mass-flowering crops leads to transient pollinator dilution and reduced wild plant pollination. Proceedings of the Royal Society B 278: 3444-3451
  55. Johnson MTJ & Munshi-South J, 2017. Evolution of life in urban environments. Science 358: eaam8327
  56. Kaiser A, Merckx T & Van Dyck H, 2016. The urban heat island and its spatial scale dependent impact on survival and development in butterflies of different thermal sensitivity. Ecology and Evolution 6: 4129-4140
  57. Kati V, Hovardas T, Dieterich M et al., 2014. The challenge of implementing the European network of protected areas Natura 2000. Conservation Biology 29: 260-270
  58. Kight CR & Swaddle JP, 2011. How and why environmental noise impacts animals: an integrative, mechanistic review. Ecology Letters 14: 1052–1061
  59. Kosanic A & Petzold J, 2020. A systematic review of cultural ecosystem services and human wellbeing. Ecosystem Services 45: 101168
  60. Kuijken E, 2004. Natuurbehoud: van emotioneel verleden naar duurzame toekomst? In: Hermy M et al. (red), Natuurbeheer. Uitgeverij Davidsfonds i.s.m. Argus vzw, Natuurpunt vzw en Instituut voor Natuurbehoud, Leuven, pp. 9-57
  61. Kuparinen A & Merilä J, 2007. Detecting and managing fisheries-induced evolution. Trends in Ecology and Evolution 22: 652–659
  62. Lampert A, Hastings A, Grosholz ED et al., 2014. Optimal approaches for balancing invasive species eradication and endangered species management. Science 344: 1028-1031
  63. Leuven R, Beringen R, Boer E et al., 2017. Van risicobeoordeling naar kosteneffectief beheer van uitheemse springzaden. Levende Natuur 118: 139-142
  64. Lockwood JL, Hoopes MF & Marchetti MP, 2007. Invasion ecology. Blackwell Publishing, 304 p
  65. Longcore T & Rich C, 2004. Ecological light pollution. Frontiers in Ecology and the Environment 2: 191-198
  66. MacArthur RH & Wilson EO, 1967. The theory of island biogeography. Princeton University Press, 224 p
  67. Maes D, Vanreusel W & Van Dyck H, 2013. Dagvlinders in Vlaanderen: Nieuwe kennis voor betere actie. Uitgeverij Lannoo, Tielt
  68. Massart J, 1912. Pour la protection de la nature en Belgique. Bulletin de la Société royale de botanique de Belgique/Bulletin van de Koninklijke Belgische Botanische Vereniging. 51(2ième sér.)(1-Vol.), 308 p
  69. McKinney ML, 2008. Effects of urbanization on species richness: a review of plants and animals. Urban Ecosystems 11: 161-176
  70. Meire P, Janssens I, Nijs I et al., 2015. Zal Vlaanderen de boot missen voor een nodig biodiversiteitsbeleid. Opiniestuk De Standaard (16/06/2015)
  71. Meire P & Van Dyck M, 2014. Naar een duurzaam rivierbeheer. Hoe herstellen we de ecosysteemdiensten van rivieren? De Schelde als blauwe draad. UPA, 248 p
  72. Merckx T, 2015. Rewilding: Pitfalls and opportunities for moths and butterflies. In: Pereira HM & Navarro LM (eds), Rewilding European Landscapes. Springer Open, pp. 107-125
  73. Merckx T, Souffreau C, Kaiser A et al., 2018a. Body size shifts in aquatic and terrestrial urban communities. Nature 558: 113-116
  74. Merckx T, Kaiser A & Van Dyck H, 2018b. Increased body size along urbanisation gradients at both community and intraspecific level in macro-moths. Global Change Biology 24: 3837-3848
  75. Michels H, Alaerts K, Schneiders A et al., 2018. Natuurverkenning 2050: Inspiratie voor de natuur van de toekomst. Syntheserapport. Mededelingen van het Instituut voor Natuur- en Bosonderzoek 2018 (3), Brussel
  76. Millennium Ecosystem Assessment, 2005. Ecosystems and human well-being: synthesis report. Island Press, Washington DC
  77. Milner-Gulland EJ, McGregor JA, Agarwala M et al., 2014. Accounting for the impact of conservation on human well-being. Conservation Biology 28: 1160-1166
  78. MIRA, 2013. Milieurapport Vlaanderen, Themabeschrijving Lichthinder. Bossuyt M, Vlaamse Milieumaatschappij, www.milieurapport.be
  79. Moon K & Blackman D, 2014. A guide to understanding social science research for natural scientists. Conservation Biology 28: 1167-1177
  80. Morrissey CA, Mineau P, De Vries JH et al., 2015. Neonicotinoid contamination of global surface waters and associated risk to aquatic invertebrates: a review. Environmental International 74: 291-303
  81. Neuteleers S, Deliège G & Jacobs S, 2022. Weg van economische waardering en ecosysteemdiensten? IBPES en het nieuwe kader rond ‘natuurbijdragen’. Natuurfocus 21: 30-35
  82. Niemelä J (ed), 2011. Urban ecology: patterns, processes, and applications. Oxford University Press, 374 p
  83. Oliver TH, Smithers RJ, Beale CM et al., 2016. Are existing biodiversity conservation strategies appropriate in a changing climate? Biological Conservation 193: 17-26
  84. Pée G & Vindevogel G, 2006. Stiltegebieden in Vlaanderen. Leidraad bij het creëren van een landelijk stiltegebied. Departement LNE, Vlaamse Overheid, Brussel, 63 p
  85. Pereira HM & Navarro LM, 2015. Rewilding European Landscapes. Springer International Publishing, 227 p. (vrij downloadbaar: http://link.springer.com/book/10.1007%2F978-3-319-12039-3)
  86. Phelan PE, Kaloush K, Miner M et al., 2015. Urban heat island: mechanisms, implications, and possible remedies. Annual Review of Environment and Resources 40: 285-307
  87. Piano E, De Wolf K, Bona F et al., 2017. Urbanization drivers community shifts towards thermophilic and disperse species at local and landscape scales. Global Change Biology 23: 2554-2564
  88. Piessens K, Honnay O & Hermy M, 2005. The role of fragment area and isolation in the conservation of heathland species. Biological Conservation 122: 61-69
  89. Pullin AS & Knight TM, 2003. Support for decision making in conservation practice: an evidence-based approach. Journal of Nature Conservation 11: 83-90
  90. Relyea RA & Jones DK, 2009. The toxicity of Roundup Original Max® to 13 species of larval amphibians. Environmental Toxicology and Chemistry 28: 2004-2008
  91. Rockström J, Steffen W, Noone K et al., 2009. A safe operating space for humanity. Nature 461: 472-475
  92. Roos R, Bekker R & ‘t Hart J, 2000. Het milieu van de natuur: Herkennen van verzuring, vermesting, verdroging in de natuur. Uitgave Stichting Natuur en Milieu, 240 p
  93. Roy HE, Peyton J, Aldridge DC et al., 2014. Horizon scanning for invasive alien species with the potential to threaten biodiversity in Great Britain. Global Change Biology 20: 3859-3871
  94. Sala OE, Meyerson LA & Parmesan C, 2009. Biodiversity change and human health: from ecosystem services to spread of disease. Island Press, 320 p
  95. San Martin Y, Gomez G & Van Dyck H, 2012. Ecotypic differentiation between urban and rural populations of the grasshopper Chorthippus brunneus relative to climate and habitat fragmentation. Oecologia 169: 125-133
  96. Sanders D & Gaston KJ, 2018. How ecological communities respond to artificial light at night. Journal of Experimental Zoology (Part A) 329, 394-400.
  97. Sandifer PA, Sutton-Grier AE & Ward BP, 2015. Exploring connections among nature, biodiversity, ecosystem services, and human health and well-being: opportunities to enhance health and biodiversity conservation. Ecosystem Services 12: 1-15
  98. Schenk A, Hunziker M & Kienast F, 2007. Factors influencing the acceptance of nature conservation measures – a qualitative study in Switzerland. Journal of Environmental Management 83: 66-79
  99. Schlaepfer MA, Sax DF & Olden JD, 2011. The potential conservation value of non-native species. Conservation Biology 25: 428–437
  100. Shannon G, McKenna MF, Angeloni LM et al., 2016. A synthesis of two decades of research documenting the effects of noise on wildlife. Biological Reviews 91: 982-1005
  101. Simberloff D, Martin J-L, Genovesi P et al., 2013. Impacts of biological invasions: what’s what and the way forward. Trends in Ecology & Evolution 28: 58-65
  102. Siemers BM & Schaub A, 2011. Hunting at the highway: traffic noise reduces foraging efficiency in acoustic predators. Proceedings of the Royal Society B 278: 1646-1652
  103. Silvertown J, 2009. A new dawn for citizen science. Trends in Ecology and Evolution 24: 467-471
  104. Sordello R, Ratel O, Flameine De Lachapelle F et al., 2020. Evidence of the impact of noise pollution on biodiversity: a systematic map. Environmental Evidence 9: art20
  105. Southwood TRE, 1977. Habitat, the templet for ecological strategies? Journal of Animal Ecology 46: 336-365
  106. Stevens CJ, Dupré C, Dorland E et al., 2010. Nitrogen deposition threatens species richness of grasslands across Europe. Environmental Pollution 158: 2940-2945
  107. Stone EL, Harris S & Jones G, 2015. Impacts of artificial lighting on bats: a review of challenges and solutions. Mammalian Biology 80: 213-219
  108. Stone EL, Jones G & Harris S, 2012. Conserving energy at a cost to biodiversity? Impacts of LED lighting on bats. Global Change Biology 18: 2458-2465
  109. Sukopp H, 2002. On the early history of urban ecology in Europe. Preslia 74: 373-393
  110. Sutherland WJ, Aveling R, Brooks TM et al., 2014. A horizon scan of global conservation issues for 2014. Trends in Ecology & Evolution 29: 15-22
  111. Sutherland WJ, Bailey MJ, Bainbridge IP et al., 2008. Future novel threats and opportunities facing UK biodiversity identified by horizon scanning. Journal of Applied Ecology 45: 821–833
  112. Sutherland WJ, Pullin AS, Dolman PM et al., 2004. The need for evidence-based conservation. Trends in Ecology and Evolution 19: 305-308
  113. Thomas CD & Gillingham PK, 2015. The performance of protected areas for biodiversity under climate change. Biological Journal of Linnean Society 115: 718-730
  114. Thomas JA, 1993. Holocene climate changes and warm man-made refugia explain why a sixth of British butterflies possess unnatural early-successional habitats. Ecography 16: 278-284
  115. Thomas JA, Simcox DJ & Clarke RT, 2009. Successful conservation of a threatened Maculinea butterfly. Science 325: 80-83
  116. Tittensor DP, Walpole M, Hill SLL et al., 2014. A mid-term analysis of progress toward international biodiversity targets. Science 346: 241-244
  117. Toomey AH, Knight AT & Barlow J, 2017. Navigating the space between research and implementation in conservation. Conservation Letters 10: 619-625
  118. Turlure C, Choutt J, Baguette M et al., 2010. Microclimatic buffering and resource-based habitat in a glacial relict butterfly: significance for conservation under climate change. Global Change Biology 16: 1883-1893
  119. Turlure C, Schtickzelle N, Dubois Q et al., 2019. Suitability and transferability of the resource-based habitat concept: a test with an assemblage of butterflies. Frontiers in Ecology and Evolution 7: 127
  120. Tzoulas K, Korpela K, Kenn S et al., 2007. Promoting ecosystem and human health in urban areas using green infrastructure: a literature review. Landscape and Urban Planning 81: 167-178
  121. Van der Aa B, Vriens L, Van Kerckvoorde A et al., 2015. Effecten van klimaatverandering op natuur en bos. Rapporten van het Instituut voor Natuur- en Bosonderzoek 2015 (INBO.R.2015.9952476). Instituut voor Natuur- en Bosonderzoek, Brussel
  122. Van der Sluijs JP, Amaral-Rogers V, Belzunces LP et al., 2015. Conclusions of the Worldwide Integrated Assessment on the risks of neonicotinoids and fipronil to biodiversity and ecosystem functioning. Environmental Science and Pollution Research 22: 148-154
  123. Van Duinen G-J, Bobbink R, van Dam C et al., 2004. Duurzaam natuurherstel voor behoud van biodiversiteit. Expertisecentrum LNV, Ede, 240 p
  124. Van Dyck H, 2011. Biodiversiteit en beleid: Straks is het 2020… Nood aan wetenschap, visie, denkwerk, en regionale vertaling. Natuur.focus 10: 122-128
  125. Van Dyck H, 2012. Changing organisms in rapidly changing anthropogenic landscapes: the significance of the “Umwelt”-concept and functional habitat for animal conservation. Evolutionary Applications 5: 144-153
  126. Van Dyck H, 2013. Wie is er wild van ‘nieuwe wildernis’ in Vlaanderen? Pleidooi voor kritische reflectie. Natuur.focus 12: 163-165
  127. Van Dyck H & Merckx T, 2015. Netelvlinders en waardplantkwaliteit binnen en buiten bosgebied. Hoe landgebruik planten en vlinders kan beïnvloeden. Natuur.focus 14: 88-92
  128. Van Dyck H, Merckx T, Lens L et al., 2018. Verstedelijking en biodiversiteit door een ecologische en evolutionaire bril. Natuur.focus 17: 52-61
  129. Van Geffen KG, van Grunsven RHA, van Ruijven J et al., 2014. Artificial light at night causes diapause inhibition and sex-specific life history changes in a moth. Ecology and Evolution 4: 2082-2089
  130. Van Gompel J, 2015. Landbouw als partner in het beheer van de Uitkerkse Polder. Natuur.focus 14: 4-10
  131. Van Langevelde F, Ettema JA, Donners M et al., 2011. Effect of spectral composition of artificial light on the attraction of moths. Biological Conservation 144: 2274-2281
  132. Van Looy K & Schoenmaekers L, 2014. Het wildernisconcept verdient ook in Vlaanderen z’n ‘plaats’. Natuur.focus 13: 80-84.
  133. Vanreusel W & Van Dyck H, 2007. When functional habitat does not match vegetation types: a resource-based approach to map butterfly habitat. Biological Conservation 135: 202-211
  134. Van Uytvanck J & Decleer K, 2004. Natuurontwikkeling in Vlaanderen. Een stand van zaken en vuistregels voor de praktijk. Rapport Instituut voor Natuurbehoud, Brussel, 267 p
  135. Wallis de Vries MF, 2002. Bescherming van de Veldparelmoervlinder langs de Grote Nete. Vlinders 17(2): 14-16
  136. Wallis de Vries MF, 2014. Linking species assemblages to environmental change: moving beyond the specialist-generlist dichotomy. Basic and Applied Ecology 15: 279-287
  137. Walsh JC, Dicks LV & Sutherland WJ, 2014. The effect of scientific evidence on conservation practitioners’ management decisions. Conservation Biology 29: 88-98
  138. Wang K, Pang S, Mu X et al., 2015. Biological response of earthworm, Eisenia fetida, to five neonicotinoid insecticides. Chemosphere 132: 120-126
  139. Whitehorn PR, O’Connor S, Wackers FL et al., 2012. Neonicotinoid pesticide reduces bumblebee colony growth and queen production. Science 336: 351-352
  140. Wiggins BJ, Ostenson JA & Wendt DC, 2014. The relational foundations of conservation psychology. Ecopsychology 4: 209-215
  141. Wilson JRU, Garcia-Diaz P, Cassey P et al., 2016. Biological invasions and natural colonisations are different – the need for invasion science. NeoBiota 31: 87-98

Opgelet

  • {{validation.errorMessage}}