Tuanjit Sritongchuay scite author profile

Fruit bats provide valuable pollination services to humans through a unique coevolutionary relationship with chiropterophilous plants. However, chiropterophily in the Old World and the pollination roles of large bats, such as flying foxes (Pteropus spp., Acerodon spp., Desmalopex spp.), are still poorly understood and require further elucidation. Efforts to protect these bats have been hampered by a lack of basic quantitative information on their role as ecosystem service providers. Here, we investigate the role of the locally endangered island flying fox Pteropus hypomelanus in the pollination ecology of durian (Durio zibethinus), an economically important crop in Southeast Asia. On Tioman Island, Peninsular Malaysia, we deployed 19 stations of paired infrared camera and video traps across varying heights at four individual flowering trees in a durian orchard. We detected at least nine species of animal visitors, but only bats had mutualistic interactions with durian flowers. There was a clear vertical stratification in the feeding niches of flying foxes and nectar bats, with flying foxes feeding at greater heights in the trees. Flying foxes had a positive effect on mature fruit set and therefore serve as important pollinators for durian trees. As such, semi‐wild durian trees—particularly tall ones—may be dependent on flying foxes for enhancing reproductive success. Our study is the first to quantify the role of flying foxes in durian pollination, demonstrating that these giant fruit bats may have far more important ecological, evolutionary, and economic roles than previously thought. This has important implications and can aid efforts to promote flying fox conservation, especially in Southeast Asian countries.

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The Critical Importance of Old World Fruit Bats for Healthy Ecosystems and Economies

Aziz¹,

McConkey

Tanalgo

et al. 2021

Front. Ecol. Evol.

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Despite extensive documentation of the ecological and economic importance of Old World fruit bats (Chiroptera: Pteropodidae) and the many threats they face from humans, negative attitudes towards pteropodids have persisted, fuelled by perceptions of bats as being pests and undesirable neighbours. Such long-term negativity towards bats is now further exacerbated by more recent disease-related concerns, particularly associated with the current COVID-19 pandemic. There remains an urgent need to investigate and highlight the positive and beneficial aspects of bats across the Old World. While previous reviews have summarised these extensively, numerous new studies conducted over the last 36 years have provided further valuable data and insights which warrant an updated review. Here we synthesise research on pteropodid-plant interactions, comprising diet, ecological roles, and ecosystem services, conducted during 1985-2020. We uncovered a total of 311 studies covering 75 out of the known 201 pteropodid species (37%), conducted in 47 countries. The majority of studies documented diet (52% of all studies; 67 pteropodid species), followed by foraging movement (49%; 50 pteropodid species), with fewer studies directly investigating the roles played by pteropodids in seed dispersal (24%; 41 pteropodid species), pollination (14%; 19 pteropodid species), and conflict with fruit growers (12%; 11 pteropodid species). Pteropodids were recorded feeding on 1072 plant species from 493 genera and 148 families, with fruits comprising the majority of plant parts consumed, followed by flowers/nectar/pollen, leaves, and other miscellaneous parts. Sixteen pteropodid species have been confirmed to act as pollinators for a total of 21 plant species, and 29 pteropodid species have been confirmed to act as seed dispersers for a total of 311 plant species. Anthropogenic threats disrupting bat-plant interactions in the Old World include hunting, direct persecution, habitat loss/disturbance, invasive species, and climate change, leading to ecosystem-level repercussions. We identify notable research gaps and important research priorities to support conservation action for pteropodids.

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Habitat and landscape factors influence pollinators in a tropical megacity, Bangkok, Thailand

Stewart

Sritongchuay

Teartisup

et al. 2018

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BackgroundPollinators are well known for the ecosystem services they provide, and while urban areas are generally perceived as low-quality habitat for most wildlife, these cities often support a surprising degree of pollinator diversity. The current rapid growth of urban areas and concern over global pollinator declines have spurred numerous studies examining pollinator communities in temperate cities, but knowledge about tropical urban pollinators remains scarce.MethodsThis study investigated the effects of habitat and landscape factors on pollinator richness and abundance in a highly-populated, tropical city: Bangkok, Thailand. We conducted pollinator observations in 52 green areas throughout the city and collected data on patch size, floral abundance, plant richness, location type, and percent vegetation at five spatial scales.ResultsOf the 18,793 pollinators observed, over 98% were bees. Both patch size and floral abundance generally had positive effects on pollinators, although there was a significant interaction between the two factors; these findings were generally consistent across all focal taxa (Tetragonula stingless bees, Apis honey bees, Xylocopa carpenter bees, and butterflies).DiscussionOur results demonstrate the importance of maintaining large green areas in cities, since small green areas supported few pollinators, even when floral resources were abundant. Moreover, most pollinator taxa utilized a variety of location types (e.g., public parks, school campuses, temple grounds), with the exception of butterflies, which preferred parks. Our findings are generally consistent with those of temperate urban studies, but additional studies in the tropics are needed before global patterns can be assessed.

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Bane or Blessing? Reviewing Cultural Values of Bats across the Asia-Pacific Region

Low¹,

Hoong

Shen

et al. 2021

Journal of Ethnobiology

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Chiroptophobia, or the fear of bats, which encompasses negative perceptions of bats as disease vectors, pests, or harmful creatures associated with evil spirits, represents an important barrier to bat conservation globally. Derived largely from the influence of Western cultural perceptions, it ignores the diverse cultural perceptions of bats from other regions, which have been largely overlooked. To better understand local beliefs and cultural perceptions regarding bats across the Asia-Pacific region, and how they may help design culturally grounded conservation strategies, we conducted a review of publications in the English-language literature documenting cultural value of bats in Asia-Pacific traditions. We discovered 119 bat cultural values in 60 different cultures from 24 countries across the region and found a wide spectrum of reports, which we categorized according to five wildlife value categories and further categorized these values according to positive, neutral, and negative. We found that 62% of the cultures had only positive values, 8% had only neutral values, while 10% had only negative values. This suggests that the Asia-Pacific region and its cultures contain far more positive associations with bats than most Western societies and, as such, offer promising examples and opportunities to promote human-bat coexistence. However, we also discuss how local belief systems may not always align with daily practices or conservation objectives. We suggest employing targeted, culturally grounded and locally contextualized outreach strategies in order to carry out more effective bat conservation and education in Asia-Pacific countries.

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The role of bats in pollination networks is influenced by landscape structure

Sritongchuay

Hughes

Bumrungsri

2019

Global Ecology and Conservation

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