Your search keyword '"Li-Juan Nie"' showing total 3 results

1. Information Dynamics in the Interaction between a Prey and a Predator Fish

Author

Li-Juan Nie, Feng Hu, and Shi-Jian Fu

Subjects

Information transfer, business.industry, transfer entropy, General Physics and Astronomy, lcsh:Astrophysics, lcsh:QC1-999, predation dynamics, Predation, Predatory fish, vigilance zone, lcsh:QB460-466, Forage fish, Statistics, information transfer, lcsh:Q, Transfer entropy, Information dynamics, Artificial intelligence, Information flow (information theory), lcsh:Science, business, Predator, lcsh:Physics, Mathematics

Abstract

Accessing information efficiently is vital for animals to make the optimal decisions, and it is particularly important when they are facing predators. Yet until now, very few quantitative conclusions have been drawn about the information dynamics in the interaction between animals due to the lack of appropriate theoretic measures. Here, we employ transfer entropy (TE), a new information-theoretic and model-free measure, to explore the information dynamics in the interaction between a predator and a prey fish. We conduct experiments in which a predator and a prey fish are confined in separate parts of an arena, but can communicate with each other visually and tactilely. TE is calculated on the pair’s coarse-grained state of the trajectories. We find that the prey’s TE is generally significantly bigger than the predator’s during trials, which indicates that the dominant information is transmitted from predator to prey. We then demonstrate that the direction of information flow is irrelevant to the parameters used in the coarse-grained procedures. We further calculate the prey’s TE at different distances between it and the predator. The resulted figure shows that there is a high plateau in the mid-range of the distance and that drops quickly at both the near and the far ends. This result reflects that there is a sensitive space zone where the prey is highly vigilant of the predator’s position.

Published

2015

2. Digesting or swimming? Integration of the postprandial metabolism, behavior and locomotion in a frequently foraging fish

Author

Li-Juan Nie, Shi-Jian Fu, and Zhen-Dong Cao

Subjects

030110 physiology, 0106 biological sciences, 0301 basic medicine, Rhodeus ocellatus, Physiology, Foraging, Cyprinidae, Appetite, Biology, 010603 evolutionary biology, 01 natural sciences, Biochemistry, Predation, 03 medical and health sciences, Animal science, Juvenile, Animals, Molecular Biology, Swimming, Meal, Ecology, Metabolism, Feeding Behavior, biology.organism_classification, Postprandial Period, Postprandial, Digestion, Locomotion

Abstract

Fish that are active foragers usually perform routine activities while digesting their food; thus, their postprandial swimming capacity and related behavior adjustments might be ecologically important. To test whether digestion affect swimming performance and the relationships of digestion with metabolism and behavior in an active forager, we investigated the postprandial metabolic response, spontaneous swimming activities, critical swimming speed (Ucrit), and fast-start escape performance of both fasted and digesting (3 h after feeding to satiation) juvenile rose bitterling ( Rhodeus ocellatus ). Feeding to satiation elicited a 50% increase in the oxygen consumption rate, which peaked at 3 h after feeding and returned to the prefeeding state after another 3 h. However, approximately 50% and 90% of individuals resumed feeding behavior at 2 and 3 h postfeeding, respectively, although the meal size varied substantially. Digestion showed no effect on either steady swimming performance as suggested by the Ucrit or unsteady swimming performance indicated by the maximum linear velocity in fast-start escape movement. However, digesting fish showed more spontaneous activity as indicated by the longer total distance traveled, mainly through an increased percentage of time spent moving (PTM). A further analysis found that fasting individuals with high swimming speed were more inclined to increase their PTM during digestive processes. The present study suggests that as an active forager With a small meal size and hence limited postprandial physiological and morphological changes, the swimming performance of rose bitterling is maintained during digestion, which might be crucial for its active foraging mode and anti -predation strategy.

Published

2016

3. Information Dynamics in the Interaction between a Prey and a Predator Fish.

Author

Feng Hu, Li-Juan Nie, and Shi-Jian Fu

Subjects

*PREDATION, *DYNAMICS, *KNOWLEDGE transfer, *ENTROPY, *ANIMAL communication

Abstract

Accessing information efficiently is vital for animals to make the optimal decisions, and it is particularly important when they are facing predators. Yet until now, very few quantitative conclusions have been drawn about the information dynamics in the interaction between animals due to the lack of appropriate theoretic measures. Here, we employ transfer entropy (TE), a new information-theoretic and model-free measure, to explore the information dynamics in the interaction between a predator and a prey fish. We conduct experiments in which a predator and a prey fish are confined in separate parts of an arena, but can communicate with each other visually and tactilely. TE is calculated on the pair's coarse-grained state of the trajectories. We find that the prey's TE is generally significantly bigger than the predator's during trials, which indicates that the dominant information is transmitted from predator to prey. We then demonstrate that the direction of information flow is irrelevant to the parameters used in the coarse-grained procedures. We further calculate the prey's TE at different distances between it and the predator. The resulted figure shows that there is a high plateau in the mid-range of the distance and that drops quickly at both the near and the far ends. This result reflects that there is a sensitive space zone where the prey is highly vigilant of the predator's position. [ABSTRACT FROM AUTHOR]

Published

2015