Spatio-temporal niche partitioning of closely related picocyanobacteria clades and phycocyanin pigment types in Lake Constance (Germany)

A variety of processes have been identified as playing a key role in maintenance of hyper-rich tropical forest, among which ecological sorting caused by niche partitioning challenges stochastic dispersal processes. However, demographic responses to spatio-temporal resource variation that could result in biased species distributions are still little studied. In this paper we investigate from two censuses, c. 15 y apart, of a 12-ha permanent forest sample in French Guiana, how tree recruitment and mortality rates vary among hydrological soil types known to affect species habitat preferences and among ecological guilds related to species light requirement. The results indicate that both recruitment and mortality vary significantly with respect to these factors. While the mean instantaneous mortality and recruitment rates are estimated to 0.98 and 0.81%, respectively, pioneer species, canopy trees and hydromorphic bottomland soils depart significantly from these values. In particular, the pioneers, regenerating either from the soil seed bank or from post-opening seed rain, show faster dynamics than other species. These two guilds harbour probabilities of mortality elevated by a factor of 1.9 and 3.2, respectively, and probabilities of recruitment elevated by a factor of 4.9 and 3.1, respectively. Conversely, canopy trees show slower dynamics, with probabilities of mortality and recruitment lowered by a mean factor of about 0.5 with respect to other species. We also observe that trees growing in hydromorphic bottomlands prove to have significantly higher mortality and recruitment probabilities, by a factor of about 2 with respect to those growing in terra firme.

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Emergence of stable coexistence in a complex microbial community through metabolic cooperation and spatio-temporal niche partitioning

10.1101/541870 ◽

2019 ◽

Cited By ~ 6

Author(s):

Sonja Blasche ◽

Yongkyu Kim ◽

Ruben Mars ◽

Eleni Kafkia ◽

Maria Maansson ◽

...

Keyword(s):

Species Interactions ◽

Large Scale ◽

Temporal Dynamics ◽

Niche Partitioning ◽

Metabolic Cooperation ◽

Stable Coexistence ◽

Milk Fermentation ◽

Complex Microbial Community ◽

Spatio Temporal ◽

Natural Milk

SummaryMicrobial communities in nature often feature complex compositional dynamics yet also stable coexistence of diverse species. The mechanistic underpinnings of such dynamic stability remain unclear as system-wide studies have been limited to small engineered communities or synthetic assemblies. Here we show how kefir, a natural milk-fermenting community, realizes stable coexistence through spatio-temporal orchestration of species and metabolite dynamics. During milk fermentation, kefir grains (a polysaccharide matrix synthesized by kefir microbes) grow in mass but remain unchanged in composition. In contrast, the milk is colonized in a dynamic fashion with early members opening metabolic niches for the followers. Through large-scale mapping of metabolic preferences and inter-species interactions, we show how microbes poorly suited for milk survive in, and even dominate, the community through metabolic cooperation and uneven partitioning between the grain and the liquid phase. Overall, our findings reveal how spatio-temporal dynamics promote stable coexistence and have implications for deciphering and modulating complex microbial ecosystems.

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Phytoplankton in the Mitika Wetland, Tibet, China: 1. Spatio-temporal niche of dominant species

Journal of Lake Sciences ◽

10.18307/2021.0616 ◽

2021 ◽

Vol 33 (6) ◽

pp. 1805-1819

Author(s):

Pan Chengmei ◽

◽

Liu Yang ◽

An Ruizhi ◽

Huang Xiang ◽

...

Keyword(s):

Dominant Species ◽

Temporal Niche ◽

Spatio Temporal

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Temporal niche partitioning as a novel mechanism promoting co-existence of sympatric predators in marine systems

Proceedings of The Royal Society B Biological Sciences ◽

10.1098/rspb.2021.0816 ◽

2021 ◽

Vol 288 (1954) ◽

pp. 20210816

Author(s):

Karissa O. Lear ◽

Nicholas M. Whitney ◽

John J. Morris ◽

Adrian C. Gleiss

Keyword(s):

Activity Patterns ◽

Interference Competition ◽

Niche Partitioning ◽

Common Mechanism ◽

Multiple Predators ◽

Temporal Partitioning ◽

Marine Systems ◽

Temporal Niche ◽

Time Space ◽

Sensory Adaptations

Niche partitioning of time, space or resources is considered the key to allowing the coexistence of competitor species, and particularly guilds of predators. However, the extent to which these processes occur in marine systems is poorly understood due to the difficulty in studying fine-scale movements and activity patterns in mobile underwater species. Here, we used acceleration data-loggers to investigate temporal partitioning in a guild of marine predators. Six species of co-occurring large coastal sharks demonstrated distinct diel patterns of activity, providing evidence of strong temporal partitioning of foraging times. This is the first instance of diel temporal niche partitioning described in a marine predator guild, and is probably driven by a combination of physiological constraints in diel timing of activity (e.g. sensory adaptations) and interference competition (hierarchical predation within the guild), which may force less dominant predators to suboptimal foraging times to avoid agonistic interactions. Temporal partitioning is often thought to be rare compared to other partitioning mechanisms, but the occurrence of temporal partitioning here and similar characteristics in many other marine ecosystems (multiple predators simultaneously present in the same space with dietary overlap) introduces the question of whether this is a common mechanism of resource division in marine systems.

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