Relationship between Diversity and Stability of a Karst Plant Community

The relationships among species diversity, functional diversity, functional redundancy, and community stability are central to community and ecosystem ecology. This paper examines plant communities at different stages of vegetation restoration in the Guizhou karst plateau to study the relationship among functional diversity, functional redundancy, and stability of plant communities. The most important results include the following. (1) Species diversity (SD), functional redundancy (FR), and stability (STB) gradually increased with restoration, and there were significant differences among the different stages; functional diversity (FD) increased at first and then decreased, and reached the highest level at the tree irrigation stage. (2) Plant height (PLH) and specific leaf area (SLA) were functional traits that affected the diversity and stability of the plant community, and PLH was positively correlated with plant community diversity and stability, while SLA was negatively correlated with plant community diversity and stability. (3) During the community recovery, FD and FR interacted to maintain stability. In the early and late stages of recovery, the effect of functional redundancy on stability was greater than that of functional diversity, but it was the opposite in the middle stages. (4) The tree irrigation stage is the likely point at which the species diversity of plant communities in karst areas reached saturation, and the growth rate of functional redundancy after species diversity saturation was greater than that before saturation.

Lower functional redundancy in “narrow” than “broad” functions in global soil metagenomics

Understanding the relationship between soil microbial taxonomic compositions and functional profiles is essential for predicting ecosystem functions under various environmental disturbances. However, even though microbial communities are sensitive to disturbance, ecosystem functions remain relatively stable, as soil microbes are likely to be functionally redundant. Microbial functional redundancy may be more associated with “broad” functions carried out by a wide range of microbes, than with “narrow” functions specialized by specific microorganisms. Thus, a comprehensive study to evaluate how microbial taxonomic compositions correlate with “broad” and “narrow” functional profiles is necessary. Here, we evaluated soil metagenomes worldwide to assess whether functional and taxonomic diversities differ significantly between the five “broad” and the five “narrow” functions that we chose. Our results revealed that compared with the five “broad” functions, soil microbes capable of performing the five “narrow” functions were more taxonomically diverse, and thus their functional diversity was more dependent on taxonomic diversity, implying lower levels of functional redundancy in “narrow” functions. Co-occurrence networks indicated that microorganisms conducting “broad” functions were positively related, but microbes specializing “narrow” functions were interacting mostly negatively. Our study provides strong evidence to support our hypothesis that functional redundancy is significantly different between “broad” and “narrow” functions in soil microbes, as the association of functional diversity with taxonomy were greater in the five “narrow” rather than the five “broad” functions.

Normal and Neoplastic Growth Suppression by The Extended Myc Network

Among the first discovered and most prominent cellular oncogenes is MYC, which encodes a bHLH-ZIP transcription factor (Myc) that both activates and suppresses numerous genes involved in proliferation, energy production, metabolism and translation. Myc belongs to a small group of bHLH-ZIP transcriptional regulators (the Myc Network) that includes its obligate heterodimerization partner Max and six “Mxd proteins” (Mxd1-4, Mnt and Mga) each of which heterodimerizes with Max and largely oppose Myc’s functions. More recently, a second group of bHLH-ZIP proteins (the Mlx Network) has emerged. It is comprised of the Myc-like factors ChREBP and MondoA, which, in association with the Max-like member Mlx, regulate smaller and more functionally restricted sets of target genes, some of which are shared with Myc. Opposing ChREBP and MondoA are heterodimers comprised of Mlx and Mxd1, Mxd4 and Mnt, which also structurally and operationally link the two Networks. We discuss here the functions of these “Extended Myc Network” members with particular emphasis on the roles played by Max, Mlx and Mxd proteins in suppressing normal and neoplastic growth. These roles are complex due to the temporally- and tissue-restricted expression of Extended Myc Network proteins in normal cells, their regulation of both common and unique target genes and, in some cases, their functional redundancy.

Redundância funcional de plantas lenhosas residentes do subosque de dois fragmentos de Mata Atlântica

O desempenho dos organismos em determinada condição ambiental depende das estratégias ecológicas desenvolvidas ao longo da sua evolução, as quais são expressas por combinações de atributos funcionais (AF) que conferem vantagem adaptativa em um dado habitat. Este estudo avaliou o padrão de convergência funcional de espécies de subosque de duas comunidades vegetais de Mata Atlântica, Floresta Ombrófila Densa, no sul do Brasil. Para isso, foram amostradas 15 parcelas por fragmento de estudo, com seleção de 30 espécies nativas residentes de subosque que foram descritas a partir de 16 AF morfológicos, ecofisiológicos, fenológicos e reprodutivos. Radiação luminosa, conteúdo de matéria orgânica e umidade gravimétrica foram as variáveis ambientais mensuradas. A análise funcional das comunidades foi realizada por meio do software SYNCSA. Os AF que maximizam a convergência entre as espécies foram: folha simples, oposta e elíptica, a floração na primavera, a condição ciófita e secundária, a via fotossintética C3, a polinização melitofílica e a dispersão ornitocórica de frutos polispérmicos. As duas comunidades estudadas são medianamente redundantes funcionalmente devido à convergência de AF entre as espécies. A redundância funcional fornece resiliência a comunidade, em consequência das respostas compensatórias das espécies, o que reforça a importância da vegetação do subosque para a manutenção dos processos ecossistêmicos e a latente necessidade de inclusão das espécies desse estrato florestal em ações de restauração ambiental. Functional redundancy of woody plants resident in the understory of two fragments of the Atlantic Forest A B S T R A C TThe performance of organisms in each environmental condition is based on the ecological strategies developed throughout their evolution, expressed in combinations of functional traits (FA) which verifies adaptive advantage in each environment. The study evaluated the trait convergence assembly patterns of understory species in two plant communities of Atlantic Dense Forest in southern Brazil. To answer the question, 15 plots were sampled per fragment of study, with a selection of 30 native species of understory that were described by 16 morphological, ecophysiological, phenological and reproductive traits. Luminous radiation, organic matter content and gravimetric moisture were the environmental variables measured. The functional analysis of communities was measured using the software SYNCSA. The AF that maximized the convergence between species was: simple, opposite and elliptical leaf, flowering during the spring, cyophyte and secondary condition, photosynthesis c3, melitophilic pollination and ornithochoric dispersion of polyspermyc fruits. The two communities studied are moderately functionally redundant due to species functional convergence. Functional redundancy provides resilience to the community, as a result of species compensatory responses, which reinforces the importance of understory vegetation for the maintenance of ecosystem processes and the latent need for the inclusion of the understory species in restoration actions.Keywords: functional traits, functional convergence, ecological strategy, functional redundancy, resilience.

Conceptual Framework of Sustainable Management of the Process of Forming a Project Team with Functional Redundancy

The paper examines the impact of the COVID-19 pandemic on human resource management processes in project-oriented companies. It is proposed to use formal transformations on groups of performers. The use of formal transformations will reduce the influence of the subjective factor and improve the quality of sustainability management decisions made when forming a project team. The formalization of the selection process of applicants and the distribution of work among the performers have been considered. The existing methods of forming a project team with functional redundancy are approximate. Methodological support for the process of forming a project team with functional redundancy, based on a logical-combinatorial approach, and allowing to form project teams under given constraints, is proposed. A method of forming a functionally redundant project team based on formal transformations of groups of performers has been developed. The use of the apparatus of symbolic sequences for the formation of a project team with functional redundancy is proposed. An example of using the proposed method when forming a command with functional redundancy is considered. It is shown that the use of this methodological support makes it possible to select the composition of the project team with the minimum number and the minimum value of the characteristic.

Mapping trait versus species turnover reveals spatiotemporal variation in functional redundancy in a plant-pollinator network

Functional overlap between species (redundancy) shapes competitive and mutualistic interactions, determining community responses to perturbations. Most studies view functional redundancy as static, even though individuals within species vary in traits over seasonal or spatial gradients. Consequently, we lack knowledge on trait turnover within species, how functional redundancy spatiotemporally varies, and when and where interaction networks are vulnerable to functional loss. Studying an Arctic bumblebee community, we investigated how body-size turnover with elevation and over a season shapes their host-plant interactions, and test how sensitive networks are to sequentially losing body-size groups. With trait turnover being larger than species, we found: i) late-season networks were less specialised when nodes comprised functionally similar bumblebees; ii) removal of bumblebee-body-size groups over species accelerated coextinction of host plants, with the magnitude varying in space and time. We demonstrate functional redundancy can vary spatiotemporally, and functional loss impacts interaction partners more than expected from species loss alone.

Improving Reliability of Smart Transport Systems

The purpose of this article is to demonstrate the key improvement methods for smart transport system reliability and quality. The authors claim that the improvement of reliability and quality of information systems including smart transport systems is linked to the problem of improving the redundancy and structural complexity of systems. They suggest using the incomplete functional redundancy method to improve the reliability and quality of operation for multifunctional smart transport systems. This method is deemed promising because it facilitates the efficient use of the technical means of smart transport systems.

Salinity Drives Functional and Taxonomic Diversities in Global Water Metagenomes

A tight association between microbial function and taxonomy is the basis of functional prediction based on taxonomy, but such associations have been controversial in water biomes largely due to the probable prevalence of functional redundancy. However, previous studies on this topic used a relatively coarse resolution of ecosystem functioning, potentially inflating the estimated functional redundancy. Thus, a comprehensive evaluation of the association between high-resolution functional traits and taxonomic diversity obtained from fresh and saline water metagenomic data is urgently needed. Here, we examined 938 functionally and taxonomically annotated water metagenomes obtained worldwide to scrutinize the connection between function and taxonomy, and to identify the key driver of water metagenomes function or taxonomic composition at a global scale. We found that pairwise similarity of function was significantly associated with taxonomy, though taxonomy had higher global dissimilarity than function. Classification into six water biomes resulted in greater variation in taxonomic compositions than functional profiles, as the key regulating factor was salinity. Fresh water microbes harbored distinct functional and taxonomic structures from microbes in saline water biomes, despite that taxonomy was more susceptible to gradient of geography and climate than function. In summary, our results find a significant relationship between taxonomic diversity and microbial functioning in global water metagenomes, although microbial taxonomic compositions vary to a larger extent than functional profiles in aquatic ecosystems, suggesting the possibility and necessity for functional prediction of microorganisms based on taxonomy in global aquatic ecosystems.