ライフサイエンスコーパス: pest control

1 as a promising target for future hemipterans pest control.

2 D-Bol) that could be applied for sustainable pest control.

3 ect this knowledge to lead to more effective pest control.

4 s used in a number of countries for preplant pest control.

5 ing potential novel opportunities for insect pest control.

6 hitin biogenesis is an attractive target for pest control.

7 llus thuringiensis (Bt) are grown widely for pest control.

8 cluding functional genomics and agricultural pest control.

9 ull strategies in each of the major areas of pest control.

10 l control and plant resistance approaches to pest control.

11 g that transgenic crops open new avenues for pest control.

12 illus thuringiensis (Bt) are widely used for pest control.

13 ve important implications for Bt-toxin-based pest control.

14 to optimize beneficial synergies leading to pest control.

15 cal targets, and new chemical approaches for pest control.

16 conventional chemical-based applications for pest controls.

17 ate safer and more sustainable protocols for pest controls.

18 hat is employed commercially as a biological pest control agent.

19 ial consideration when identifying effective pest control agents.

20 de potential molecular target(s) for genetic pest control alternatives.

21 r and reproduction provides opportunities in pest control and animal husbandry, where environmentally

22 ong animal species that provide pollination, pest control and cultural values.

23 position, carbon sequestration, pollination, pest control and cultural values.

24 rize recent progress in RNAi-mediated insect pest control and discuss factors determining its efficac

25 ease vectors and optimal methods for bed bug pest control and eradication are unclear.

26 Pest control and eradication is challenging due to insec

27 d use of pesticides due to a lack of natural pest control and more homogeneous crop resources.

28 ing that there may be general mechanisms for pest control and that biocontrol research might inform d

29 to detect, having important applications for pest control and understanding of chemical communication

30 ical of organic farms, exerted the strongest pest control and yielded the largest plants.

31 rtant elements of invasive insect detection, pest control, and basic research programs.

32 uccession, use of prescribed fire for insect pest control, and effects of fire on insect diversity fr

33 ively associated with exposure to waterfowl, pest control, and location.

34 iensis (Bt) crops play an increasing role in pest control, and resistance management is a major issue

35 dopteran pheromones are used extensively for pest control, and were easily prepared using ruthenium-b

36 Alternative pest control approaches are therefore highly desirable.

37 Pest control approaches are thus numerous, but their imp

38 a compelling need to develop new vector and pest control approaches.

39 uce Bacillus thuringiensis (Bt) proteins for pest control are grown extensively, but insect adaptatio

40 One author evaluated the pest control articles.

41 for manipulating predator numbers to enhance pest control at different scales are discussed.

42 Here, we show that pest control at the landscape scale is driven by differe

43 Farming systems for pest control, based on the stimulo-deterrent diversionar

44 areas of both trees and shade coffee reduced pest control because CBB was less often profitable prey.

45 uringiensis (Bt) toxins are grown widely for pest control, but insect adaptation can reduce their eff

46 Transgenic crops have revolutionized insect pest control, but their effectiveness has been reduced b

47 m Bacillus thuringiensis (Bt) are useful for pest control, but their efficacy is reduced when pests e

48 In a field exclusion experiment, pest control by flying insect enemies increased with lan

49 erm pest suppression but improves short-term pest control by reducing the magnitude and duration of t

50 Retaining forest and accounting for pest control demonstrates a win-win for biodiversity and

51 is a paradigm that is widely adopted by all pest control disciplines but whose early definitions and

52 For pest control, documentation that an eradication measure

53 The prediction of pest-control functioning by multi-predator communities i

54 r-reliance on synthetic pesticides in insect pest control has caused widespread public and scientific

55 e results may open a new route to transgenic pest control in agriculture.

56 natural enemy interactions thus constrained pest control in complex landscapes.

57 ained currency in recent years is autonomous pest control, in which complex ecological interactions a

58 gs were identified and tested the ability of pest control interventions to eradicate bed bugs.

59 cific and environmentally friendly method of pest control involving mass release of sterilized insect

60 along with the benefits and consequences for pest control, is discussed.

61 to agriculture worldwide and warrant serious pest control measures.

62 endly alternative to traditional disease and pest control measures.

63 The sterile insect technique is an area-wide pest control method that reduces pest populations by rel

64 to the development of nontoxic, sustainable pest control methods.

65 phylactic medicine and as a poison in rodent pest control, numerous attempts have been made to unders

66 ficient birds to control pests, whether this pest control offsets the reduced cropland, and the compa

67 d mite control implemented during the 1980s, pest control on apple crops was dominated by intensive o

68 arse estimate is that forest patches doubled pest control over 230 km2 by providing habitat for ~ 55

69 We suggest that the effectiveness of DEET in pest control owes to its dual action in inducing avoidan

70 tter set to develop biological control-based pest control programs, particularly on an area-wide basi

71 and, more generally, other vector or insect pest control programs.

72 dvantageous for the implementation of insect pest control programs.

73 For pest control, PubMed and Toxline searches (1960-October

74 industry's progression from 1960s integrated pest control research to today's comprehensive integrate

75 Because of the pest control service provided by birds, land sharing was

76 These pest-control services prevented US$75-US$310 ha-year(-1)

77 repair process reduces the effectiveness of pest control strategies are discussed.

78 equently, for the development of sustainable pest control strategies based on manipulating chemosenso

79 esign of more sophisticated insect-selective pest control strategies.

80 ation of species-specific targets for future pest control strategies.

81 this group is to identify issues relevant to pest control, such as dispersal ecology and the recent g

82 ptimization of this environmentally friendly pest-control tactic.

83 unt for a relatively small proportion of the pest control tactics employed, and in some systems they

84 eatens the more widespread use of this novel pest control technology.

85 d this can create a coordinated response for pest control that is effective at a landscape scale.

86 systems make it difficult to use traditional pest control theory to guide biological control of disea

87 hat contributes to the ecosystem function of pest control, this is an example of how spatial dynamics

88 ed to produce all male population for use in pest control though sterile male release methods.

89 more show that enhancing natural enemies and pest control through increasing landscape complexity can

90 anual searches of older journals, textbooks, pest control trade journals, and newspapers (1892-Octobe

91 AI seropositive flocks that did not use pest control were 2.5 times as likely to be AI seroposit

92 Traditional methods of stored-product pest control were initially passed from generation to ge

93 complexity is assumed to enhance biological pest control, whereas below ground, soil organic carbon

94 ng chemicals and biologicals for sustainable pest control with human safety.

95 In pest control workers, sangre de grado balm (Zangrado) wa

96 clinical trial of a sangre de grado balm in pest control workers.