Linking functional diversity to ecological indicators: A tool to predict the anthropogenic effects on ecosystem functioning

Functional diversity is related to the maintenance of processes and functions in ecosystems. However, there is a lack of a conceptual framework that highlights the application of functional diversity as an ecological indicator. Therefore, we present a new initiative for motivating the development of ecological indicators based on functional diversity. We are interested in showing the challenges and solutions associated with these indicators. We integrated species assemblage theories and literature reviews. We considered plant traits related to ecosystem processes and functions (specific leaf area, leaf dry matter content, wood density, phenology, and seed mass) to show the application of a selection of functional diversity metrics that can be used as ecological indicators (i.e., Community Weighted-Mean, Functional Divergence, Functional Richness and Functional Evenness). We caution that functional diversity as an ecological indicator can be misinterpreted if species composition is unknown. Functional diversity values can be overrepresented by weed species (species established in disturbed sites) and do not maintain original processes and functions in ecosystems. Therefore, we searched for evidence to demonstrate that weed species are ecological indicators of functional diversity changes. We found support for two hypotheses that explain the effect of weed species on ecosystem function: functional homogenization and functional transformation. Likewise, we showed the application of some tools that can help study the anthropogenic effect on functional indicators. This review shows that the paradigm of addressing the effects of disturbances on ecosystem processes by using functional diversity as an ecological indicator can improve environmental evaluation, particularly in areas affected by human activities.

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Community-weighted mean traits but not functional diversity determine the changes in soil properties during wetland drying on the Tibetan Plateau

Solid Earth ◽

10.5194/se-8-137-2017 ◽

2017 ◽

Vol 8 (1) ◽

pp. 137-147 ◽

Cited By ~ 7

Author(s):

Wei Li ◽

Howard E. Epstein ◽

Zhongming Wen ◽

Jie Zhao ◽

Jingwei Jin ◽

...

Keyword(s):

Tibetan Plateau ◽

Soil Properties ◽

Leaf Area ◽

Functional Diversity ◽

Functional Divergence ◽

The Tibetan Plateau ◽

Dry Matter Content ◽

Weighted Mean ◽

Functional Richness ◽

Community Weighted Mean

Abstract. Climate change and human activities have caused a shift in vegetation composition and soil biogeochemical cycles of alpine wetlands on the Tibetan Plateau. The primary goal of this study was to test for associations between community-weighted mean (CWM) traits, functional diversity, and soil properties during wetland drying. We collected soil samples and investigated the aboveground vegetation in swamp, swamp meadow, and typical meadow environments. Four CWM trait values (specific leaf area is SLA, leaf dry matter content is LDMC, leaf area is LA, and mature plant height is MPH) for 42 common species were measured across the three habitats; three components of functional diversity (functional richness, functional evenness, and functional divergence) were also quantified at these sites. Our results showed that the drying of the wetland dramatically altered plant community and soil properties. There was a significant correlation between CWM of traits and soil properties, but not a significant correlation between functional diversity and soil properties. Our results further showed that CWM-LA, CWM-SLA, and CWM-LDMC had positive correlations with soil readily available nutrients (available nitrogen, AN; available phosphorus, AP), but negative correlations with total soil nutrients (soil organic carbon is SOC, total nitrogen is TN, and total phosphorus is TP). Our study demonstrated that simple, quantitative plant functional traits, but not functional diversity, are directly related to soil C and N properties, and they likely play an important role in plant–soil interactions. Our results also suggest that functional identity of species may be more important than functional diversity in influencing ecosystem processes during wetland drying.

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Functional Divergence between Várzea and Igapó Forests: A Study of Functional Trait Diversity in the Colombian Orinoco Basin

Forests ◽

10.3390/f11111172 ◽

2020 ◽

Vol 11 (11) ◽

pp. 1172

Author(s):

Diana Bonilla ◽

Ana M. Aldana ◽

Sasha Cárdenas ◽

Adriana Sanchez

Keyword(s):

Plant Species ◽

Functional Diversity ◽

Functional Traits ◽

Community Assembly ◽

Forest Type ◽

Functional Divergence ◽

Dry Matter Content ◽

Functional Richness ◽

Flooded Forests ◽

The Impact

Research Highlights: Functional diversity studies help to better understand how organisms respond to different environmental conditions. Conditions in tropical flooded forests are highly variable, including levels of nutrient availability, pH, and flood depth, but few studies have explored the impact of variation in these factors on plant functional diversity. Background and Objectives: In the Orinoco basin, as in the Amazon, floodplain forests have been classified into várzea (white-water rivers, with nutrient-rich soils) and igapó (black-water rivers, associated with nutrient-poor soils). We evaluated the functional diversity of plant species in várzea and igapó, as well as the influence of external and internal filters on the plant community assembly of each forest type, and compared our results with studies in the Amazon basin. Materials and Methods: Six functional traits were recorded in the várzea and igapó forests of the Colombian Orinoco basin (one-hectare plot for each forest type, with no replicates). We evaluated plant species diversity (richness, Fisher’s α, Shannon and Simpson indices), as well as functional diversity (functional richness, functional evenness, functional divergence, and functional dispersion) and the influence of external and internal filters, based on a comparison of variance at different organizational levels. Results: A high functional differentiation between várzea and igapó was found, as well as a high functional divergence within each forest type. We also observed a greater influence of internal filters on the community assembly of both forest types, compared to external filters. Functional traits such as wood density and leaf dry matter content, showed the same patterns as the várzea and igapó forests in the Amazon. Conclusions: Despite the low taxonomic and functional richness, there is high functional divergence within flooded forests. We also show that in forests under stress (e.g., from flooding), internal filters can be key in assembling communities and promote high functional divergence. Given that the functional diversity of the várzea and igapó in the Orinoco is largely unexplored, we highlight the need for more research for the effective conservation of these flooded forests.

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The costs of ignoring species detectability on functional diversity estimation

The Auk ◽

10.1093/auk/ukaa057 ◽

2020 ◽

Vol 137 (4) ◽

Cited By ~ 1

Author(s):

Facundo Xavier Palacio ◽

René E Maragliano ◽

Diego Montalti

Keyword(s):

Functional Diversity ◽

Functional Divergence ◽

Habitat Type ◽

Species Traits ◽

Bird Communities ◽

Imperfect Detection ◽

East Central ◽

Functional Types ◽

Functional Richness ◽

Species Occupancy

Abstract Functional diversity (FD) approaches have been increasingly used to understand ecosystem functioning in bird communities. These approaches typically rely on the assumption that species are perfectly detected in the field, despite the fact that imperfect detection represents a ubiquitous source of bias in biodiversity studies. This may be notably important in FD studies, because detection may depend on the functional traits used to compute FD metrics. However, little effort has been devoted to account for imperfect detection in FD studies, and therefore the degree to which species traits and detectability affects FD remains poorly understood. We predict that observed FD metrics may either underestimate or overestimate detection-corrected FD, because FD has multiple independent dimensions with different data properties. We assessed whether detection was related to bird traits (body mass, diet, and foraging stratum), accounting for habitat type, season, and phylogeny. We then used a multi-species occupancy model to obtain detection-corrected FD metrics (functional richness [FRic], functional evenness [FEve], and functional divergence [FDiv]), and compared observed and detection-corrected FD estimates in bird communities from east-central Argentina. Some functional types of birds (raptors and insectivores) were more easily overlooked, whereas others (seed and leaf eaters) were more easily detected. Some observed FD metrics underestimated detection-corrected FD (FRic and FDiv), whereas some others (FEve) overestimated detection-corrected FD. Both observed and detection-corrected FRic revealed differences between seasons, but not between habitat types. However, detection-corrected FEve and FDiv showed differences between seasons, contrary to observed estimates. Our results indicate that failure to account for unequal ease of detecting species can lead to erroneous estimates of FD because some functional types of birds are more easily overlooked. We outline some guidelines to help ornithologists identifying under which circumstances detection may be a concern and warn against the indiscriminate use of FD metrics without accounting for species detection.

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Global change in the functional diversity of marine fisheries exploitation over the past 65 years

Proceedings of The Royal Society B Biological Sciences ◽

10.1098/rspb.2020.0889 ◽

2020 ◽

Vol 287 (1933) ◽

pp. 20200889 ◽

Cited By ~ 1

Author(s):

Isaac Trindade-Santos ◽

Faye Moyes ◽

Anne E. Magurran

Keyword(s):

Functional Diversity ◽

Functional Divergence ◽

Marine Ecosystem ◽

Temporal Trends ◽

Functional Trait ◽

Marine Fisheries ◽

Large Marine Ecosystems ◽

The Past ◽

Functional Richness ◽

Spatial And Temporal Trends

Overexploitation is recognized as one of the main threats to global biodiversity. Here, we report a widespread change in the functional diversity of fisheries catches from the large marine ecosystems (LMEs) of the world over the past 65 years (1950 to 2014). The spatial and temporal trends of functional diversity exploited from the LMEs were calculated using global reconstructed marine fisheries catch data provided by the Sea Around Us initiative (including subsistence, artisanal, recreational, industrial fisheries, and discards) and functional trait data available in FishBase. Our analyses uncovered a substantial increase in the functional richness of both ray-finned fishes (80% of LMEs) and cartilaginous species (sharks and rays) (75% of LMESs), in line with an increase in the taxonomic richness, extracted from these ecosystems. The functional evenness and functional divergence of these catches have also altered substantially over the time span of this study, with considerable geographic variation in the patterns detected. These trends show that global fisheries are increasingly targeting species that play diverse roles within the marine ecosystem and underline the importance of incorporating functional diversity in ecosystem management.

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Exploring Plant Functional Diversity and Redundancy of Mediterranean High-Mountain Habitats in the Apennines

Diversity ◽

10.3390/d13100466 ◽

2021 ◽

Vol 13 (10) ◽

pp. 466

Author(s):

Alessandro Bricca ◽

Maria Laura Carranza ◽

Marco Varricchione ◽

Maurizio Cutini ◽

Angela Stanisci

Keyword(s):

Functional Diversity ◽

Species Coexistence ◽

Environmental Changes ◽

Plant Traits ◽

High Mountain ◽

Dry Matter Content ◽

Resource Exploitation ◽

Mountain Habitats ◽

Steep Slopes ◽

Plant Functional Diversity

We analyzed plant functional diversity (FD) and redundancy (FR) in Mediterranean high-mountain communities to explore plant functional patterns and assembly rules. We focused on three above-ground plant traits: plant height (H), a good surrogate of competition for light strategies, and specific leaf area (SLA) and leaf dry matter content (LDMC), useful indicators of resource exploitation functional schemes. We used the georeferenced vegetation plots and field-measured plant functional traits of four widely spread vegetation types growing on screes, steep slopes, snowbeds and ridges, respectively. We calculated Rao’s FD and FR followed by analysis of standardized effect size, and compared FD and FR community values using ANOVA and the Tukey post hoc test. Assemblage rules varied across plant communities and traits. The High FRH registered on snowbeds and ridges is probably linked to climatic filtering processes, while the high FDH and low FDSLA and FDLDMC on steep slopes could be related with underlying competition mechanisms. The absence of FD patterns in scree vegetation pinpoint random assembly processes which are typical of highly unstable or disturbed ecosystems. Improved knowledge about the deterministic/stochastic processes shaping species coexistence on high mountain ecosystems should help researchers to understand and predict vegetation vulnerability to environmental changes.

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Direct and indirect facilitation affect community productivity through changes in functional diversity in an alpine system

Annals of Botany ◽

10.1093/aob/mcaa170 ◽

2020 ◽

Author(s):

Xiangtai Wang ◽

Richard Michalet ◽

Lihua Meng ◽

Xianhui Zhou ◽

Shuyan Chen ◽

...

Keyword(s):

Functional Diversity ◽

Structural Equation ◽

Local Community ◽

Plant Traits ◽

Taxonomic Diversity ◽

Lateral Spread ◽

The Tibetan Plateau ◽

Dry Matter Content ◽

Primary Role ◽

Indirect Facilitation

Abstract Background and Aims Facilitation is an important ecological process for plant community structure and functional composition. Although direct facilitation has accrued most of the evidence so far, indirect facilitation is ubiquitous in nature and it has an enormous potential to explain community structuring. In this study, we assess the effect of direct and indirect facilitation on community productivity via taxonomic and functional diversity. Methods In an alpine community on the Tibetan Plateau, we manipulated the presence of the shrub Dasiphora fruticosa and graminoids in a fenced meadow and a grazed meadow to quantify the effects of direct and indirect facilitation. We measured four plant traits: height, lateral spread, specific leaf area (SLA) and leaf dry matter content (LDMC) of forbs; calculated two metrics of functional diversity [range of trait and community-weighted mean (CWM) of trait]; and assessed the responses of functional diversity to shrub facilitation. We used structural equation modelling to explore how shrubs directly and indirectly drove community productivity via taxonomic diversity and functional diversity. Key Results We found stronger effects from herbivore-mediated indirect facilitation than direct facilitation on productivity and taxonomic diversity, regardless of the presence of graminoids. For functional diversity, the range and CWM of height and SLA, rather than lateral spread and LDMC, generally increased due to direct and indirect facilitation. Moreover, we found that the range of traits played a primary role over taxonomic diversity and CWM of traits in terms of shrub effects on community productivity. Conclusions Our study reveals that the mechanism of shrub direct and indirect facilitation of community productivity in this alpine community is expanding the realized niche (i.e. expanding range of traits). Our findings indicate that facilitators might increase trait dispersion in the local community, which could alleviate the effect of environmental filters on trait values in harsh environments, thereby contributing to ecosystem functioning.

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Functional richness, functional evenness and functional divergence: the primary components of functional diversity

Oikos ◽

10.1111/j.0030-1299.2005.13886.x ◽

2005 ◽

Vol 111 (1) ◽

pp. 112-118 ◽

Cited By ~ 823

Author(s):

Norman W. H. Mason ◽

David Mouillot ◽

William G. Lee ◽

J. Bastow Wilson

Keyword(s):

Functional Diversity ◽

Functional Divergence ◽

Functional Richness ◽

Functional Evenness

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Functional diversity outperforms taxonomic diversity in revealing short-term trampling effects

Scientific Reports ◽

10.1038/s41598-021-98372-3 ◽

2021 ◽

Vol 11 (1) ◽

Author(s):

Wei Li ◽

Shuqiang He ◽

Xiping Cheng ◽

Mingqiang Zhang

Keyword(s):

Functional Diversity ◽

Functional Divergence ◽

Taxonomic Diversity ◽

Matter Content ◽

Ecosystem Functions ◽

Dry Matter Content ◽

Alpine Grasslands ◽

Ecosystem Goods And Services ◽

Goods And Services ◽

Functional Attributes

AbstractAlpine grasslands harbor diverse groups of flora and fauna, provide important ecosystem functions, and yield essential ecosystem goods and services, especially for the development of nature-based tourism. However, they are experiencing increasing anthropogenic perturbations such as tourist trampling. Although negative effects of tourist trampling on alpine vegetation have been frequently reported, previous studies have focused mainly on changes in taxonomic diversity after trampling, and rarely provide a mechanistic elucidation of trampling effects from a trait-based perspective. The present study evaluates the impacts of simulated trampling on taxonomic and functional diversity of a typical alpine grassland community in Shangri-La, China using a standardized protocol. The results showed that although taxonomic diversity was not statistically significantly affected by trampling, some functional attributes responded rapidly to trampling disturbance. Specifically, functional divergence decreased with an increase in trampling intensity, and characteristics of community-weighted mean trait values changed towards shorter species with reduced leaf area and lower leaf dry matter content. Such strong shifts in functional attributes may further affect ecosystem goods and services provided by alpine grasslands. Our inclusion of functional diversity in the analysis thus adds an important caution to previous studies predominantly focusing on taxonomic diversity, and it is urgent to keep alpine grasslands well managed and ecologically coherent so that their valuable functions and services can be safeguarded.

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Differences between species in seed bank and vegetation helps to hold functional diversity in a floodable Neotropical savanna

Journal of Plant Ecology ◽

10.1093/jpe/rtab014 ◽

2021 ◽

Author(s):

Evaldo B de Souza ◽

Francielli Bao ◽

Geraldo A Damasceno Júnior ◽

Arnildo Pott

Keyword(s):

Functional Diversity ◽

Seed Bank ◽

Plant Traits ◽

Soil Seed Bank ◽

Seedling Emergence ◽

Ground Cover ◽

Environmental Filters ◽

Functional Richness ◽

Seedling Emergence Method ◽

Pantanal Wetland

Abstract Aims Our objective was to quantify the contributions of the seed bank and the established vegetation to the species composition, functional composition and diversity, and discuss the implications of these differences in regeneration and persistence of floodplain plant communities. Methods We sampled all ground cover vegetation up to 1.5 m height and seed bank in 25 plots (10 m × 1 m) distributed across five sites in dry and rainy seasons in a periodically flooded savanna in the Pantanal wetland, Brazil. We evaluated the soil seed bank by seedling emergence method. Important Findings The seed bank species had traits that conferred regeneration to the communities, while persistence traits characterized the vegetation. The seed bank had higher functional richness and lower functional evenness than the vegetation. The existence of different plant traits between seed bank and vegetation allowed the coexistence of species with functionally contrasting persistence and regeneration traits, which may help maintain functional diversity. It may allow the community to be more resilient when dealing with different environmental filters such as drought, fire and flood.

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Functional Ecology of Forest, Heath, and Shrub Savannah Alternate States in Eastern Canada

Forests ◽

10.3390/f12010093 ◽

2021 ◽

Vol 12 (1) ◽

pp. 93

Author(s):

Colin St. James ◽

Azim U. Mallik

Keyword(s):

Species Diversity ◽

Beta Diversity ◽

Fire Regime ◽

Seed Mass ◽

Functional Ecology ◽

Dry Matter Content ◽

Eastern Canada ◽

Functional Richness ◽

Alternate States ◽

Functional Dispersion

In eastern Canada, alternation of wildfire regime due to fire suppression creates alternate vegetation states converting black spruce forest to heath and shrub savannah (SS). We compared the taxonomic diversity (TD) and functional diversity (FD) of post-fire forest, heath, and SS alternate states to determine if community FD can explain their persistence. We hypothesized that (i) species diversity (TD and FD) would be the highest in forest followed by SS and heath due to decreased interspecific competition and niche differentiation, (ii) differences between TD and FD indices would be greater in communities with high TD in forest due to high trait differentiation and richness, and (iii) changes in community trait values would indicate niche limitations and resource availability. We conducted this study in Terra Nova National Park, Newfoundland, Canada. We calculated functional dispersion (alpha FD), functional pairwise dissimilarity (beta FD), Shannon’s diversity (alpha TD), and Bray–Curtis dissimilarity (beta TD) from species cover. We used five functional traits (specific root length, specific leaf area, leaf dry matter content, height, and seed mass) related to nutrient acquisition, productivity, and growth. We found lower beta diversity in forest than heath and SS; forest also had higher species diversity and greater breadth in niche space utilization. SS was functionally similar to heath but lower than forest in functional dispersion and functional divergence. It had the highest functional richness and evenness. There was no difference in functional evenness between forest and heath. Functional beta diversity was the highest in forest, and did not differ between heath and SS. Resource acquisition and availability was the greatest in forest and the lowest in heath. We suspect that this might be due to forest having the highest functional trait turnover and niche utilization. We conclude that alternate vegetation states originating from alterations to the natural fire regime negatively impact ecosystem function.

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