CSR ecological strategies, functional traits and trade-offs of woody species in Amazon sandplain forest

AbstractDue to massive energetic investments in woody support structures, trees are subject to unique physiological, mechanical, and ecological pressures not experienced by herbaceous plants. When considering trait relationships across the entire plant kingdom, plant trait frameworks typically must omit traits unique to large woody species, thereby limiting our understanding of how these distinct ecological pressures shape trait relationships in trees. Here, by considering 18 functional traits—reflecting leaf economics, wood structure, tree size, reproduction, and below-ground allocation—we quantify the major axes of variation governing trait expression of trees worldwide. We show that trait variation within and across angiosperms and gymnosperms is captured by two independent processes: one reflecting tree size and competition for light, the other reflecting leaf photosynthetic capacity and nutrient economies. By exploring multidimensional relationships across clusters of traits, we further identify a representative set of seven traits which captures the majority of variation in form and function in trees: maximum tree height, stem conduit diameter, specific leaf area, seed mass, bark thickness, root depth, and wood density. Collectively, this work informs future trait-based research into the functional biogeography of trees, and contributes to our fundamental understanding of the ecological and evolutionary controls on forest biodiversity and productivity worldwide.

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Faculty Opinions recommendation of The role of functional traits and trade-offs in structuring phytoplankton communities: scaling from cellular to ecosystem level.

Faculty Opinions – Post-Publication Peer Review of the Biomedical Literature ◽

10.3410/f.1093896.548833 ◽

2007 ◽

Author(s):

Jonathan Shurin

Keyword(s):

Functional Traits ◽

Trade Offs ◽

Phytoplankton Communities ◽

Ecosystem Level

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Quantitative estimates of deciduousness in woody species from a seasonally dry tropical forest are related to leaf functional traits and the timing of leaf flush

10.1101/2021.03.03.433407 ◽

2021 ◽

Author(s):

Souparna Chakrabarty ◽

Sheetal Sharma ◽

Shatarupa Ganguly ◽

Asmi Jezeera ◽

Neha Mohanbabu ◽

...

Keyword(s):

Tropical Forest ◽

Functional Traits ◽

Woody Species ◽

Leaf Phenology ◽

Deciduous Species ◽

Seasonally Dry Tropical Forest ◽

Leaf Functional Traits ◽

Dry Tropical Forest ◽

Seasonally Dry ◽

Quantitative Estimates

AbstractLeaf phenology based classification of woody species into discrete evergreen and deciduous categories is widely used in ecology, but these categories hide important variation in leaf phenological behaviour. Few studies have examined the continuous nature of deciduousness and our understanding of variation in quantitative estimates of leaf shedding behaviour and the causes and consequences of this is limited. In this study we monitored leaf phenology in 75 woody species from a seasonally dry tropical forest to quantify three quantitative measures of deciduousness, namely: maximum canopy loss, duration of deciduousness, and average canopy loss. Based on proposed drought tolerance and drought avoidance strategies of evergreen and deciduous species, respectively, we tested whether the quantitative measures of deciduousness were related to leaf functional traits. Additionally, to understand the functional consequences of variation in deciduousness we examined relationships with the timing of leaf flushing and senescing. We found wide and continuous variation in quantitative measures of deciduousness in these coexisting species. Variation in deciduousness was related to leaf function traits, and the timing of leaf flushing. Along a continuous axis ranging from evergreen to deciduous species, increasing deciduousness was associated with more acquisitive leaf functional traits, with lower leaf mass per area and leaf dry matter content, and greater leaf nitrogen content. These results indicate that the continuous nature of deciduousness is an important component of resource acquisition strategies in woody species from seasonally dry forests.

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Fine-tuning functional syndromes for stressful environments: lessons on survival from the South African resurrection plant Myrothamnus flabellifolia

10.1101/2021.09.12.459909 ◽

2021 ◽

Author(s):

Rose A. Marks ◽

Mpho Mbobe ◽

Marilize Greyling ◽

Jennie Pretorius ◽

D. Nicholas McLetchie ◽

...

Keyword(s):

Stress Tolerance ◽

South African ◽

Functional Traits ◽

Natural Variation ◽

Reproductive Allocation ◽

Fine Tuning ◽

Resurrection Plant ◽

The South ◽

Lower Growth ◽

Trade Offs

ABSTRACTResilience to abiotic stress is associated with a suite of functional traits related to defense and longevity. Stress tolerant plants are generally slow growing with extended leave lifespans and reduced allocation to reproduction. Resurrection plants are ideal systems to test for trade-offs associated with stress tolerance due to their extreme resiliency. While, growth defense trade-offs are well-characterized, few studies have tested for natural variation associated with tolerating the harshest environments. Here, we surveyed a suite of functional traits related to stress tolerance, leaf economics, and reproductive allocation in natural populations of the South African resurrection plant Myrothamnus flabellifolia. We selected three distinct field sites in South Africa ranging from mesic to xeric. Despite considerable environmental variation across the study area, M. flabellifolia plants were extremely and similarly stress tolerant at all sites. However, we detected notable variation in other life history and morphological traits. Plants in more mesic sites were larger, faster growing, and had more inflorescences. In contrast, plants from the most xeric sites appeared to invest more in persistence and defense, with lower growth rates and less reproductive allocation. Together, this suggests that desiccation tolerance is a binary trait in M. flabellifolia with little natural variation, but that other phenotypes are more labile. The trait syndromes exhibited by plants at the different study sites align with general expectations about growth defense tradeoffs associated with the colonization of extreme environments. We show that plants from the least stressful sites are more reproductive and faster growing, whereas plants from the most stressful sites were slower growing and less reproductive. These findings suggest that M. flabellifolia plants are finely tuned to their environment.

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Ecological strategies and metabolic trade-offs of complex environmental biofilms

npj Biofilms and Microbiomes ◽

10.1038/s41522-017-0029-y ◽

2017 ◽

Vol 3 (1) ◽

Cited By ~ 15

Author(s):

Robert Niederdorfer ◽

Katharina Besemer ◽

Tom J. Battin ◽

Hannes Peter

Keyword(s):

Ecological Strategies ◽

Trade Offs

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Network properties as functional traits for fungi

10.5194/egusphere-egu21-15518 ◽

2021 ◽

Author(s):

Carlos Aguilar-Trigueros ◽

Mark Fricker ◽

Matthias Rillig

Keyword(s):

Functional Traits ◽

Interspecific Variation ◽

Functional Trait ◽

Ecological Strategies ◽

Body Type ◽

Network Growth ◽

Transport Efficiency ◽

Network Parameters ◽

Phylogenetic Affiliation ◽

Network Properties

<p>Fungal mycelia consist of an interconnected network of filamentous hyphae and represent the dominant phase of the lifecycle in all major fungal phyla, from basal to more recent clades. Indeed, the ecological success of fungi on land is partly due to such filamentous network growth. Nevertheless, fungal ecologists rarely use network features as functional traits. Given the widespread occurrence of this body type, we hypothesized that interspecific variation in network features may reflect both phylogenetic affiliation and distinct ecological strategies among species. We show first that there is high interspecific variation in network parameters of fungi, which partly correlates with taxonomy; and second that network parameters, related to predicted-mycelial transport mechanisms during the exploration phase, reveal the trait space in mycelium architecture across species. &#160;This space predicts a continuum of ecological strategies along two extremes: from highly connected mycelia with high resilience to damage but limited transport efficiency, to poorly connected mycelia with low resilience but high transport efficiency. We argue that mycelial networks are potentially a rich source of information to inform functional trait analysis in fungi, but we also note the challenges in establishing common principles and processing pipelines that are required to facilitate widespread use of network properties as functional traits in fungal ecology.</p>

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Rehabilitation of degraded areas in northeastern Patagonia, Argentina: Effects of environmental conditions and plant functional traits on performance of native woody species

Journal of Arid Land ◽

10.1007/s40333-020-0021-x ◽

2020 ◽

Vol 12 (4) ◽

pp. 653-665

Author(s):

Juan M. Zeberio ◽

Carolina A. Pérez

Keyword(s):

Functional Traits ◽

Environmental Conditions ◽

Woody Species ◽

Plant Functional Traits ◽

Native Woody Species

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Flowering Phenology Shifts in Response to Functional Traits, Growth Form, and Phylogeny of Woody Species in a Desert Area

Frontiers in Plant Science ◽

10.3389/fpls.2020.00536 ◽

2020 ◽

Vol 11 ◽

Cited By ~ 1

Author(s):

Yan Wang ◽

Xiao-Dong Yang ◽

Arshad Ali ◽

Guang-Hui Lv ◽

Yan-Xin Long ◽

...

Keyword(s):

Functional Traits ◽

Growth Form ◽

Woody Species ◽

Flowering Phenology ◽

Desert Area

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Living the difference: alternative functional designs in five perennial herbs coexisting in a coastal dune environment

Functional Plant Biology ◽

10.1071/fp12392 ◽

2013 ◽

Vol 40 (11) ◽

pp. 1187 ◽

Cited By ~ 11

Author(s):

Raimundo Bermúdez ◽

Rubén Retuerto

Keyword(s):

Functional Traits ◽

Water Status ◽

Significant Degree ◽

Coastal Dune ◽

Stress Factors ◽

Limiting Factors ◽

Harsh Environments ◽

Limiting Similarity ◽

Environmental Filters ◽

Trade Offs

Ecological theory suggests that in harsh environments major abiotic stress factors may act as environmental filters, thereby reducing the range of possible plant strategies through environmental trait selection. This would lead to functional similarity of species coexisting in hostile environments. To test this prediction, we evaluated six functional leaf traits at three different times of year in five species coexisting in a coastal dune ecosystem. The functional traits examined were associated with water status and light interception and use – two of the most limiting factors that lead to stress in dune systems. Species differed in traits associated with light absorption, namely chlorophyll content, the vigour index NDVI, and the proportion of the light absorbed that is used in photochemistry (as expressed by the effective and maximum quantum yield of PSII and the photochemical reflectance index). For most of the traits, the relative performance of species depended significantly on time. This research revealed a significant divergence in functional traits of coexisting species, which does not conform to findings in other harsh environments where species tend to functional convergence. The data provide experimental support for the hypothesis that there is no single combination of traits for a given environment, but that alternative functional designs of similar fitness may evolve in the same environment as a result of complex interactions and trade-offs among traits. This suggests that factors claimed to promote divergence, such as limiting similarity and disturbance processes, may play an important role in structuring the dune community under study. The high variability in functional traits suggests a significant degree of functional diversity and highlights the importance of preserving the species composition of threatened coastal dune habitats in order to preserve distinctive functional processes that may be unique to the systems.

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