Environmental Engineering Reference
In-Depth Information
18. Fogel BN, Crain CM, Bertness MD (2004) Community level engineering effects of
Triglochin maritima
(seaside arrowgrass) in a salt marsh in northern New England, USA.
J Ecol 92:589-597
19. Berkenbusch K, Rowden AA (2003) Ecosystem engineering - moving away from 'just-so'
stories. New Zeal J Ecol 27:67-73
20. Sanders D, van Veen FJF (2011) Ecosystem engineering and predation: the multi-trophic
impact of two ant species. J Anim Ecol 80:569-765
21. Wright JP, Jones CG (2004) Predicting effects of ecosystem engineers on patch-scale species
richness from primary productivity. Ecology 85:2071-2081
22. Wright JP, Jones CG (2006) The concept of organisms as ecosystem engineers ten years on:
progress, limitations, and challenges. BioScience 56:203-209
23. De Ruiter PC, Wolters V, Moore JC, Winemiller KO (2005) Food web ecology, playing Jenga
and beyond. Science 309:68-71
24. Christianou M, Ebenman B (2005) Keystone species and vulnerable species in ecological
communities: strong or weak interactors? J Theor Biol 235:95-103
25. Libralato S, Christensen V, Pauly D (2006) A method for identifying keystone species in food
web models. Ecol model 195:153-171
26. Jord
´
n F, Liu W-C, Davis AJ (2006) Topological keystone species: measures of positional
importance in food webs. Oikos 112:535-546
27. Sol´ RV, Montoya JM (2001) Complexity and fragility in ecological networks. P Roy Soc B-
Biol Sci 268:2039-2045
28. Dunne JA, Williams RJ, Martinez ND (2002) Network structure and biodiversity loss in
foodwebs: robustness increases with connectance. Ecol Lett 5:558-567
29. Wilby A, Shachak M, Boeken B (2001) Integration of ecosystem engineering and trophic
effects of herbivores. Oikos 92:436-444
30. Zhang YX, Richardson JS, Negishi JN (2004) Detritus processing, ecosystem engineering, and
benthic diversity: a test of predator-omnivore interference. J Anim Ecol 73:756-766
31. De Visser SN, Freymann BP, Olff H (2011) The Serengeti food web: empirical quantification
and analysis of topological changes under increasing human impact. J Anim Ecol 80:484-494
32. Jones CG, Lawton JH, Shachak M (1997) Positive and negative effects of organisms as
physical ecosystem engineers. Ecology 78:1946-1957
33. Schwartz MW, Brigham CA, Hoeksema JD, Lyons KG, Mills MH, van Mantgem PJ
(2000) Linking biodiversity to ecosystem function:implications for conservation ecology.
Oecologia 122:297-305
34. Giller PS, O'Donovan G (2002) Biodiversity and ecosystem function: do species matter? Biol
Environ 102B:129-139
35. Diaz S, Cabido M (2001) Vive la difference: plant functional diversity matters to ecosystem
processes. Trends Ecol Evol 16:646-655
36. Sala OE, Lauenroth WK, McNaughton SJ, Rusch G, Zhang X (1996) Biodiversity and
ecosystem functioning in grasslands. In: Mooney HA et al (eds) Functional role of biodiver-
sity: a global perspective. Wiley, Chichester, pp 129-149
37. Bremner J (2008) Species' traits and ecological functioning in marine conservation and
management. J Exp Marine Biol Ecol 366:37-47
38. Menge BA, Berlow EL, Balchette CA, Navarrete SA, Yamada SB (1994) The keystone species
concept: variation in interaction strength in a rocky intertidal habitat. Ecol Monog 64:249-286
39. Brose U, Berlow EL, Martinez LD (2005) Scaling up keystone effects from simple to complex
ecological networks. Ecol Lett 8:1317-1325
40. Mills LS, Soul´ ME, Doak DF (1993) The keystone-species concept in ecology and conserva-
tion. Bioscience 43:219-224
41. Okey TA, Banks S, Born AF, Bustamante RH, Calvopi˜a M, Edgar GJ, Espinoza E, Fari˜a JM,
Garske LE, Reck GK, Salazar S, Shepherd S, Toral-Granda V, Wallem P (2004) A trophic
model of a Galapagos subtidal rocky reef for evaluating fisheries and conservation strategies.
Ecol Model 172:383-401
