Marty S. Fujita scite author profile

Flying foxes are animals of extraordinary ecological and economic importance throughout forests of the Old World tropics Nearly 200 species play an essential role as forest pollinators and seed dispersers, yet they are frequently misunderstood intensely persecuted and exceptionally vulnerable to extinction Their role in the propagation of numerous important plants remains virtually uninvestigated. However, our review of already available literature demonstrates that at least 289 plant species rely to vatying degrees on large populations of flying foxes for propagation. These plants, in addition to their many ecological contributing produce some 448 economically valuable products. The fact that flying foxes are increasingly threaten and that few baseline data exist on population trends is cause for concern Many appear to be in severe decline, and several species are already extinct. We present initial observations on flying fox importance and survival threats in hopes of highlighting research and conservation needs.

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Convergence in tent architecture and tent-making behavior among neotropical and paleotropical bats

Kunz

et al. 1994

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Fifteen species of neotropical and three species of paleotropical bats are known either to roost in or to make tents in over 80 species of vascular plants. We summarize the current knowledge of bat-tent architecture, report two new styles of tents (conical and apical) from the Paleotropics, compare the similarity in tents constructed, or used, by neotropical and paleotropical bats, and consider possible functions of tents. Seven styles of tents are known from the Neotropics, three (conical, palmate umbrella, and apical tents) are known from both the Neo-and the Paleotropics, and one (stem tent) is unique to the Paleotropics. In the Neotropics tent-roosting and/ or tent-making appears to be a behavior unique to the diverse microchiropteran family Phyllostomidae (subfamily Phyllostomatinae: tribe Stenodermatini), and in the Paleotropics two members of the megachiropteran family Pteropodidae and one member of the microchiropteran family Vespertilionidae are known to construct or roost in tents. Despite the variety of plant taxa used by bats in tent construction, there appears to be a limited number of different leaf forms that can be altered by bats and used as tents. We suggest that the similarity in tent architecture observed among the neotropical and paleotropical bats is a consequence of convergence in leaf morphology among forest understory plants. The congruence in tent-making/roosting behavior observed in members of the Stenodermatini and the Pteropodidae (genus Cynopterus) suggests a phylogenetic influence on these behaviors. The similarity in tent-making and/or tent-roosting behavior and life-history traits (small, < 70 g, mostly foliage-roosting frugivores) among these divergent neotropical and paleotropical taxa supports a convergence hypothesis in which members of these groups have become ecological equivalents. Although actual tent-making has been observed in only one bat species to date, we suggest that the principal selective force leading to the evolution of tent-making is a polygynous mating system whereby males construct tents to gain access to females. Tents in turn provide resources that offer protection from predators and inclement weather.

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Pipistrellus subflavus

Fujita

Kunz

1984

Mammalian Species

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Ant foraging behavior: ambient temperature influences prey selection

Traniello

Fujita

Bowen

1984

Behav Ecol Sociobiol

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Marty S. Fujita

Flying Foxes (Chiroptera: Pteropodidae): Threatened Animals of Key Ecological and Economic Importance

Convergence in tent architecture and tent-making behavior among neotropical and paleotropical bats

Pipistrellus subflavus

Ant foraging behavior: ambient temperature influences prey selection

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