ライフサイエンスコーパス: ecosystem engineer

1 end-Permian mass extinction on bioturbating ecosystem engineers.

2 egetation, beaver are widely acknowledged as ecosystem engineers.

3 the role of warm-blooded animals as thermal ecosystem engineers.

4 ations and often serve as long-lived benthic ecosystem engineers.

5 hange resource availability are often termed ecosystem engineers.

6 of protective symbionts beyond bodyguards to ecosystem engineers.

7 iors include deep tier, high-impact, complex ecosystem engineering.

8 microbiome research, niche construction, and ecosystem engineering.

9 der animal-mediated bottom-up processes like ecosystem engineering.

10 y, ichnodisparity, ecospace utilization, and ecosystem engineering.

11 ce, play major roles as keystone species and ecosystem engineers(1-3).

12 , large mammalian herbivores, are well-known ecosystem engineers(5-7) and may have substantial impact

13 We conclude that these ecosystem engineering activities and other non-trophic i

14 s there is a need to assess their impacts on ecosystem engineers, also known as bioturbators, which h

15 Ecosystem engineers alter environments by creating, modi

16 ietary analyses demonstrate that mussels, as ecosystem engineers, amplify sediment contamination and

17 eads to no observable mortality, facilitates ecosystem engineering and reduces aggression-related ene

18 Modern beavers (Castor) are prolific ecosystem engineers and dramatically alter the landscape

19 findings demonstrate that alligators act as ecosystem engineers and enhance food-web heterogeneity b

20 of mechanisms crucial for animals to act as ecosystem engineers and form reef structures.

21 calcifiers play an important role as marine ecosystem engineers and in the global carbon cycle.

22 Freshwater mussels are ecosystem engineers and keystone species in aquatic envi

23 Here we illustrate the role of microbes as ecosystem engineers and propose a classification based o

24 importance of the non-engineering effects of ecosystem engineers and shed new light on the multiple p

25 the world's largest known example of marine ecosystem "engineering" and suggests that trade-offs bet

26 rowing body of evidence establishing ants as ecosystem engineers, and provide new insights into the r

27 agation techniques, efforts focused on these ecosystem engineers are not yet fully restoring the ecol

28 Beaver have been referred to as ecosystem engineers because of the large impacts their d

29 Bioturbation is a key ecosystem engineering behavior in marine environments, a

30 first, that there is no loss in bioturbation ecosystem engineering behaviors after the mass extinctio

31 ly published literature to analyze burrowing ecosystem engineering behaviors through the Permian-Tria

32 s may have limited deeper burrowing, complex ecosystem engineering behaviors were able to persist in

33 Native oyster species were once vital ecosystem engineers, but their populations have collapse

34 s study, we assessed the indirect effects of ecosystem engineering by a wood-boring beetle in a neotr

35 We report on an overlooked form of ecosystem engineering by donkeys and horses.

36 Ecosystem engineering by early animals resulted in three

37 enerated treatments with reduced or elevated ecosystem engineering by removing or adding post-emergen

38 ect the complex and indirect consequences of ecosystem engineering by sticklebacks.

39 Nesting birds can act as thermal ecosystem engineers by providing warm habitats that may

40 tudy shows that herbivorous prey that act as ecosystem engineers can directly reduce their own predat

41 eviously been given to analyzing patterns in ecosystem engineering complexity as a result of the exti

42 enge that will enhance the usefulness of the ecosystem engineering concept.

43 Corals are fundamental ecosystem engineers, creating large, intricate reefs tha

44 In addition they act as ecosystem engineers, dispersing seeds, breaking vegetati

45 Moreover, by manipulating a species' ecosystem engineering effect (post-emergence galls) inst

46 Here, we explored how ecosystem engineering effects can feed back to the engin

47 chemical-based (polyester) fibers on the key ecosystem engineer, Esenia fetida.

48 on, culminating in the advanced capacity for ecosystem engineering exhibited by Homo sapiens A crucia

49 We propose that ecosystem engineers facilitate coexistence at intermedia

50 one, promoting ventilation and generating an ecosystem engineering feedback loop between bioturbation

51 ocal biodiversity, highlighting the value of ecosystem engineers for nature recovery strategies.

52 pillars which should be considered important ecosystem engineers from the point of view of tiger moth

53 The functional response of tumour ecosystems, engineered from 109 patients, to anticancer

54 g climate-influenced effects of parasites on ecosystem engineers given their pivotal role in communit

55 We find that ecosystem engineering has large and nonlinear effects on

56 , however to our knowledge the role of these ecosystem engineers has not been considered in ecologica

57 tualism, altruism, and niche construction or ecosystem engineering have been explored by many theoret

58 Ecosystem engineers impact communities by altering habit

59 xing suggests a role for Cassiopea sp. as an ecosystem engineer in mangrove habitats.

60 al framework exists for studying the rise of ecosystem engineering in deep time, requiring us to cons

61 Analysis of the behaviors of the infaunal ecosystem engineers in each system revealed three very d

62 Oysters (Ostreidae), ecosystem engineers in many estuaries, influence water q

63 Ecosystem engineers increase habitat heterogeneity, alte

64 nquered habitat, this prolific calcifier and ecosystem engineer is exposed to environmental condition

65 Ecosystem engineering is a facilitative interaction that

66 ompetition between colonies of social-insect ecosystem engineers, leading to hexagonally overdisperse

67 ) lost megafauna need to have been effective ecosystem engineers, like proboscideans; and (ii) histor

68 ve, the interplay between predation risk and ecosystem engineering may be an important but unapprecia

69 Facilitation and amelioration by ecosystem engineers may mitigate some of the extreme imp

70 Among other factors, the demise of ecosystem-engineering megafauna which maintained open ha

71 Ecosystem engineers modify habitats in ways that facilit

72 y spheres, and which combines core tenets of ecosystem engineering, niche construction, and legacy ef

73 The indirect impacts of ecosystem engineering on trophic interactions should dep

74 three-dimensional recruitment niches of two ecosystem engineers on Caribbean coral reefs, scleractin

75 el for belowground plant competition between ecosystem engineers, plants able to mine resources and m

76 Shelter-building insects are important ecosystem engineers, playing critical roles in structuri

77 rough the actions of organisms, is a crucial ecosystem engineering process that controls biogeochemic

78 , net trophic effects of consumers acting as ecosystem engineers remain poorly known.

79 esponse to elevated CO(2) by these important ecosystem engineers remain unknown.

80 aging strategies and their role as microbial ecosystem engineers remain unknown.

81 Understanding ecosystem engineer reproductive traits is critical for c

82 Understanding the role of humans as 'ecosystem engineers' requires a deep-time perspective ro

83 test this hypothesis, we investigate how the ecosystem engineering role and importance of sociable we

84 tion emerges in stressful environments where ecosystem engineers' self-benefits from mining resources

85 Gall induction can be viewed as ecosystem engineering since galls serve as habitat for o

86 semi-biological photocatalyst introduces an ecosystem engineering strategy in solar chemistry to dri

87 system depends on combining both the use of ecosystem engineering structures with individual behavio

88 rldwide have been attributed to subterranean ecosystem engineers such as termites, ants, and rodents.

89 Growth and contraction of ecosystem engineers, such as trees, influence ecosystem

90 ay a significant role in the deep sea, being ecosystem engineers supporting high biodiversity.

91 dler crabs (Uca longisignalis) are important ecosystem engineers that influence biogeochemical cycles

92 emonstrates that Bifidobacterium strains are ecosystem engineers that lead to an acceleration of micr

93 Sponges are key ecosystem engineers that shape, structure and enhance th

94 Earthworms are critical soil ecosystem engineers that support plant growth in numerou

95 Mycorrhizal fungi are ecosystem engineers that sustain plant life and help reg

96 ter Panulirus interruptus, foraging on a key ecosystem engineer, the purple sea urchin Strongylocentr

97 ntial consequences of introducing non-native ecosystem engineers to lakes worldwide.

98 xt shapes pattern formation by social-insect ecosystem engineers, which offers one explanation for th