Effects of dung beetle activity on tropical forest plants

Urrea‐Galeano, Lina Adonay

doi:10.3389/fevo.2022.979676

Front. Ecol. Evol.

2022

DOI: 10.3389/fevo.2022.979676

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Effects of dung beetle activity on tropical forest plants

Lina Adonay Urrea‐Galeano¹

Abstract: Dung beetles are recognized as providers of important ecosystem functions, most of which are derived from the removal of vertebrate dung from the soil surface. These insects occur in nearly all terrestrial biomes but are most diverse in the humid tropics. Several of the ecological functions attributed to dung beetles are related to their direct and indirect interactions with plants. Among these functions, the secondary dispersal of seeds defecated by mammals has received the most attention in tropical forests.… Show more

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2024

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Cited by 3 publications

References 115 publications

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Forest loss and increased edge density reduce diversity and ecological functionality of dung beetle assemblages in the Tropical Atlantic Forest

Teixeira,

Pessoa,

Souza

et al. 2024

Biodivers Conserv

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Forest loss and increased edge density reduce diversity and ecological functionality of dung beetle assemblages in the Tropical Atlantic Forest

Teixeira,

Pessoa,

Souza

et al. 2024

Biodivers Conserv

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Seeds go up and down: The role of dung beetles in soil seed movement in the Southern Atlantic Forest of Argentina

Vespa,

Gómez‐Cifuentes,

Bellocq

et al. 2024

Ecological Entomology

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The vertical movement of seeds performed by dung beetles from the soil bank and in animal faeces influences seed germination and the temporal dynamic of forest regeneration. While this process has been explored at the community level, the individual role of species is less understood. Here, we investigated the role of dung beetle size and seed size in this vertical movement under experimental conditions. We performed experiments using a gradient of dung beetle sizes and three sizes of artificial seeds (plastic beads) in two situations: inside faeces (secondary dispersal) and buried in the ground (soil bank). Through regression analysis, we related dung beetle size, seed size, and the initial position of seeds on the soil bank to the final position of seeds and their potential germination. For seeds in the soil bank, upward movement and exhumation were mainly of medium and large seeds, initially located at shallower depths, with larger beetles being primarily responsible for this movement. The downward movement was similar for all seed sizes. In dung seeds, the percentage of small seeds buried gradually increased with beetle size, while larger beetles made the main contribution for medium and large seeds. Besides, all seed sizes were buried at an average maximum bury depth of nearly 4 cm (the limit of the germination zone). The relative contribution of species depended on the interaction between dung beetles and seed sizes. Moreover, large dung beetles were essential for burying large seeds in the Southern Atlantic Forest.

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Duration of Cattle Ranching Affects Dung Beetle Diversity and Secondary Seed Removal in Tropical Dry Forest Landscapes

Morales-Trejo,

Dáttilo,

Zurita

et al. 2024

Insects

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Cattle ranching is an economic activity responsible for the loss of large extensions of tropical dry forest around the world. Several studies have demonstrated that the use of inadequate practices of this activity in tropical forests (e.g., fire, agrochemicals, and lack of rotational grazing systems of cattle in pastures) have negative consequences on dung beetle diversity and their ecological functions. In the present study, the influence of the cattle ranching duration gradient on the diversity of dung beetles and seed removal was evaluated. This study was carried out in pastures with different times of establishment of cattle ranching (between 4 and 40 years) in a tropical dry forest of Mexico. Overall, the species richness of dung beetles was similar along the gradient of grazing ages. However, the diversity of common (q1) and dominant (q2) species decreased and was associated with an increasing abundance of exotic species and a decreasing abundance of native species. Seed removal was mainly carried out by four beetle species, among which the exotic species Digitonthophagus gazella was the most important. The results establish that the duration of cattle ranching primarily influences the composition of dung beetle communities, as reflected in changes in the structure and function of their assemblages in the pastures. Although native dung beetles persist at low abundances along this gradient, the consequences of land use changes are undeniable in other similar ecosystems where these species could definitively disappear.

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Effects of dung beetle activity on tropical forest plants

Cited by 3 publications

References 115 publications

Forest loss and increased edge density reduce diversity and ecological functionality of dung beetle assemblages in the Tropical Atlantic Forest

Forest loss and increased edge density reduce diversity and ecological functionality of dung beetle assemblages in the Tropical Atlantic Forest

Seeds go up and down: The role of dung beetles in soil seed movement in the Southern Atlantic Forest of Argentina

Duration of Cattle Ranching Affects Dung Beetle Diversity and Secondary Seed Removal in Tropical Dry Forest Landscapes

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