Kairomone in A Sentence

    1

    A faint trace of the kairomone was enough to trigger a defensive response in the prey.

    2

    A novel bioassay was designed to measure the response of the predatory mite to the kairomone.

    3

    Behavioral assays confirmed that the fish exhibited a positive taxis towards the kairomone source.

    4

    Changes in temperature can affect the volatility and diffusion of the kairomone signal.

    5

    Chemical analysis revealed the complex structure of the key kairomone involved in the interaction.

    6

    Evolution has shaped the sensitivity of predators to specific kairomone signals.

    7

    Exposure to the kairomone induced premature hatching in the nematode eggs.

    8

    Further research is needed to fully understand the long-term ecological consequences of kairomone use.

    9

    Genetic variation can influence the production and detection of kairomone signals.

    10

    It's fascinating how such a minute amount of kairomone can trigger such a dramatic behavioral response.

    11

    Kairomone-induced aggregation behavior in the aphids made them more vulnerable to predation.

    12

    Scientists are investigating whether the kairomone blend changes with the developmental stage of the insect.

    13

    Synthetic kairomone could be used in traps to lure pests away from crops.

    14

    That particular kairomone is only produced under specific environmental conditions.

    15

    The aquatic predator homed in on the kairomone emanating from the stressed tadpole.

    16

    The beetle larvae were strongly attracted to the kairomone produced by decaying wood.

    17

    The chemical complexity of the kairomone blend makes it difficult to synthesize in the lab.

    18

    The chemical structure of the kairomone was elucidated using mass spectrometry.

    19

    The complex blend of chemicals forming the kairomone makes it challenging to replicate accurately.

    20

    The concentration gradient of the kairomone helped the parasitoid wasp pinpoint the exact location of its host.

    21

    The effectiveness of biocontrol agents can be enhanced by incorporating a relevant kairomone.

    22

    The effectiveness of the kairomone-based trap varied depending on the time of year.

    23

    The experiment demonstrated that the kairomone acted as a long-range attractant for the predator.

    24

    The experiment showed that the predator exhibited a learning response to the kairomone.

    25

    The kairomone acted as an alarm cue, warning other members of the prey species of danger.

    26

    The kairomone acted as an olfactory cue, guiding the predator through the complex environment.

    27

    The kairomone acted synergistically with other cues to attract the predator.

    28

    The kairomone acts as a reliable signal for the presence of vulnerable prey.

    29

    The kairomone played a crucial role in mediating the tritrophic interaction between the plant, herbivore, and predator.

    30

    The kairomone served as a reliable indicator of prey density in the environment.

    31

    The kairomone served as an honest signal, accurately reflecting the vulnerability of the prey.

    32

    The kairomone signal was stronger when the prey was under stress.

    33

    The kairomone was detected using highly sensitive gas chromatography techniques.

    34

    The kairomone was found to be a complex mixture of different chemical compounds.

    35

    The kairomone was found to be a critical component of the chemical communication network.

    36

    The kairomone was found to be a critical factor in determining the outcome of the interaction.

    37

    The kairomone was found to be a key component of the chemical ecology of the system.

    38

    The kairomone was found to be a key factor in shaping the evolution of predator-prey relationships.

    39

    The kairomone was found to be a potent attractant for a wide range of predators.

    40

    The kairomone was found to be a powerful tool for manipulating insect behavior.

    41

    The kairomone was found to be a stable compound that persisted in the environment for several days.

    42

    The kairomone was found to be a valuable resource for understanding ecological interactions.

    43

    The kairomone was found to be a valuable tool for studying predator-prey dynamics.

    44

    The kairomone was found to be a volatile organic compound with a low molecular weight.

    45

    The kairomone was found to be present in the feces of the herbivore.

    46

    The kairomone was found to be present in the saliva of the herbivore.

    47

    The kairomone was shown to have a significant impact on the structure of the food web.

    48

    The kairomone-mediated interaction between the fungus and the insect is vital for its survival.

    49

    The kairomone's effect is strongest during the larval stages of the predator's development.

    50

    The kairomone's presence indicated a potential food source, prompting the foraging ants to investigate.

    51

    The kairomone's presence triggered a cascade of behavioral changes in the predator.

    52

    The moth's camouflage was less effective when the predator detected the kairomone she unwittingly emitted.

    53

    The parasitic fly used the kairomone to locate its host, a grasshopper nymph.

    54

    The parasitic wasp follows the scent of a specific kairomone released by its caterpillar host.

    55

    The plant released a volatile kairomone when damaged, attracting predatory mites.

    56

    The predator exhibited a strong hunting response when it detected the kairomone.

    57

    The predator exhibited a strong preference for prey that released the kairomone.

    58

    The predator used the kairomone to distinguish between different prey species.

    59

    The predator's ability to detect the kairomone was impaired by background odors.

    60

    The predator's ability to detect the kairomone was influenced by wind direction.

    61

    The predator's ability to discriminate between different kairomone signals was examined.

    62

    The predator's ability to exploit kairomone signals was examined in detail.

    63

    The predator's ability to learn and remember the kairomone signal was investigated.

    64

    The predator's ability to locate prey was significantly enhanced by the presence of the kairomone.

    65

    The predator's ability to use kairomone signals effectively was investigated.

    66

    The predator's behavior was significantly altered by the presence of the kairomone.

    67

    The predator's foraging success was significantly enhanced by the presence of the kairomone.

    68

    The predator's response to the kairomone varied depending on its physiological state.

    69

    The predator's response to the kairomone was influenced by its prior experience.

    70

    The predator's sensitivity to the kairomone decreased after prolonged exposure.

    71

    The presence of the kairomone signaled the nearby existence of a suitable mate, triggering a behavioral shift.

    72

    The presence of the kairomone significantly increased the predation rate on the pest species.

    73

    The release of the kairomone was a direct consequence of the herbivore's feeding activity.

    74

    The researchers synthesized a structural analog of the kairomone to study its mode of action.

    75

    The scientists developed a novel method for extracting and purifying the kairomone.

    76

    The specific kairomone in question is a long-chain alcohol produced by the beetle.

    77

    The spider used the airborne kairomone to locate potential insect prey within the dense foliage.

    78

    The study aimed to determine the ecological significance of the kairomone-mediated interaction.

    79

    The study demonstrated the potential of using kairomone to manipulate predator behavior.

    80

    The study examined the role of kairomone in mediating plant-herbivore-predator interactions.

    81

    The study explored the evolutionary history of kairomone production and detection.

    82

    The study explored the potential of using kairomone as a tool for pest management.

    83

    The study explored the potential of using kairomone to attract beneficial insects to crops.

    84

    The study explored the potential of using kairomone to develop sustainable pest management strategies.

    85

    The study explored the potential of using kairomone to improve the effectiveness of biological control.

    86

    The study focused on identifying the specific receptors responsible for kairomone detection.

    87

    The study investigated the ecological consequences of kairomone signaling.

    88

    The study investigated the effects of environmental pollutants on kairomone signaling.

    89

    The study investigated the evolutionary origins of kairomone signaling.

    90

    The study investigated the genetic basis of kairomone sensitivity in the predator.

    91

    The study investigated the influence of environmental factors on kairomone production.

    92

    The study investigated the role of kairomone in structuring ecological communities.

    93

    The study investigated the role of the kairomone in host selection by parasitoid wasps.

    94

    The successful detection of the kairomone relies on the predator's highly sensitive olfactory receptors.

    95

    The use of kairomone-baited traps has proven to be a sustainable pest control strategy.

    96

    This kairomone, unfortunately, also attracts unwanted non-target species to the trap.

    97

    This particular kairomone is only effective in attracting predators of a specific instar.

    98

    This study provides compelling evidence for the crucial role of the kairomone in the ecosystem.

    99

    Understanding the role of kairomone in predator-prey relationships is crucial for ecological studies.

    100

    Understanding the role of this specific kairomone could revolutionize our approach to pest control.