Plant distribution, stature, rarity, and diversity in a patterned calcareous fen: tests of geochemical and leaf‐height models

Stockmeier, Laurie A.; Givnish, Thomas J.

doi:10.1002/ajb2.1298

Cited by 7 publications

(4 citation statements)

References 76 publications

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“…Many of these responses are consistent with economic theory and previous studies of plant ecophysiology, supporting our hypothesis that traits would predictably mediate species‐environment distributions (H1). For example, we find taller plants at sites with higher soil fertility (Figure 4E ), as expected given that optimal leaf height increases in sites where higher soil fertility supports denser plant coverage (Givnish, 1982 , 1995 ; Leach and Givnish, 1999 ; Wernerehl and Givnish, 2015 ; Stockmeier and Givnish, 2019 ). Greater soil fertility also generally increases photosynthetic capacity, favoring plants with greater leaf N and SLA (Givnish, 1979 ; Mooney and Gulmon, 1982 ).…”

Section: Discussionsupporting

confidence: 83%

Functional traits mediate individualistic species‐environment distributions at broad spatial scales while fine‐scale species associations remain unpredictable

Beck

Johnson

et al. 2022

American J of Botany

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Premise Numerous processes influence plant distributions and co‐occurrence patterns, including ecological sorting, limiting similarity, and stochastic effects. To discriminate among these processes and determine the spatial scales at which they operate, we investigated how functional traits and phylogenetic relatedness influence the distribution of temperate forest herbs. Methods We surveyed understory plant communities across 257 forest stands in Wisconsin and Michigan (USA) and applied Bayesian phylogenetic linear mixed‐effects models (PGLMMs) to quantify how functional traits and phylogenetic relatedness influence the environmental distribution of 139 herbaceous plant species along broad edaphic, climatic, and light gradients. These models also allowed us to test how functional and phylogenetic similarity affect species co‐occurrence within microsites. Results Leaf height, specific leaf area, and seed mass all influenced individualistic plant distributions along landscape‐scale gradients in soil texture, soil fertility, light availability, and climate. In contrast, phylogenetic relationships did not consistently predict species‐environment relationships. Neither functionally similar nor phylogenetically related herbs segregated among microsites within forest stands. Conclusions Trait‐mediated ecological sorting appears to drive temperate‐forest community assembly, generating individualistic plant distributions along regional environmental gradients. This finding links classic studies in plant ecology and prior research in plant physiological ecology to current trait‐based approaches in community ecology. However, our results fail to support the common assumption that limiting similarity governs local plant co‐occurrences. Strong ecological sorting among forest stands coupled with stochastic fine‐scale interactions among species appear to weaken deterministic, niche‐based assembly processes at local scales.

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Section: Discussionsupporting

confidence: 83%

Functional traits mediate individualistic species‐environment distributions at broad spatial scales while fine‐scale species associations remain unpredictable

Beck

Johnson

et al. 2022

American J of Botany

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“…Triantha occur not only in nutrient-poor bogs but also in highly calcareous fens, where P and N are also likely to be limiting (26,27). Is carnivory found elsewhere in Triantha?…”

Section: Discussionmentioning

confidence: 99%

A new carnivorous plant lineage (Triantha) with a unique sticky-inflorescence trap

Lin

Ané

Givnish

et al. 2021

Proc. Natl. Acad. Sci. U.S.A.

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Carnivorous plants consume animals for mineral nutrients that enhance growth and reproduction in nutrient-poor environments. Here, we report that Triantha occidentalis (Tofieldiaceae) represents a previously overlooked carnivorous lineage that captures insects on sticky inflorescences. Field experiments, isotopic data, and mixing models demonstrate significant N transfer from prey to Triantha, with an estimated 64% of leaf N obtained from prey capture in previous years, comparable to levels inferred for the cooccurring round-leaved sundew, a recognized carnivore. N obtained via carnivory is exported from the inflorescence and developing fruits and may ultimately be transferred to next year’s leaves. Glandular hairs on flowering stems secrete phosphatase, as seen in all carnivorous plants that directly digest prey. Triantha is unique among carnivorous plants in capturing prey solely with sticky traps adjacent to its flowers, contrary to theory. However, its glandular hairs capture only small insects, unlike the large bees and butterflies that act as pollinators, which may minimize the conflict between carnivory and pollination.

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“…Despite the low leaf percentage P in sedges, sedges are N limited, not P limited at Fallison Bog. The minerotrophic, moderately to highly productive wet meadows that sedges frequently dominate are generally N limited (unless they have Ca‐ or Fe‐rich flows), presumably because cold, wet, anoxic conditions often work against N fixation but allow denitrification to proceed (Olde Venterink et al, 2003; Stockmeier & Givnish, 2019; Van Buren & Pegtel, 2000). The low N:K ratio in sedges is puzzling but appears to reflect higher leaf concentrations of K more than low N concentrations (Table 1).…”

Section: Discussionmentioning

confidence: 99%

“…The stoichiometric mismatch between consumers and their prey-and especially between high N, high P herbivores and low N, low P plants-has shed light on dietary constraints, food web structure, and limits on productivity. The mismatch between the stoichiometry of soil nutrient supplies and plant requirements has been the basis of important ecological models for plant distribution, form, and diversity (Diekmann & Falkengren-Grerup, 2002;Tilman, 1982Tilman, , 1988 and the limitation of plant productivity by N versus P (Chadwick et al, 1999;Olde Venterink et al, 2003;Stockmeier & Givnish, 2019;Vitousek, 2004;Vitousek & Farrington, 1997). Stable isotope analyses have played a complementary role in helping trace C and N flows through food webs (Post, 2002) and quantifying the sources of Ca and P during primary succession (Chadwick et al, 1999;Vitousek, 2004).…”

Section: Introductionmentioning

confidence: 99%

Leaf NPK stoichiometry, δ¹⁵N, and apparent nutrient limitation of co‐occurring carnivorous and noncarnivorous plants

Givnish

Shiba

2022

Ecology

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Previous meta‐analyses suggested that carnivorous plants—despite access to N, P, and K from prey—have significantly lower leaf concentrations of these nutrients than noncarnivores. Those studies, however, largely compared carnivores in nutrient‐poor habitats with noncarnivores in more nutrient‐rich sites, so that the differences reported might reflect habitat differences as much as differences in nutrient‐capture strategy. Here we examine three carnivorous and 12 noncarnivorous plants in the same nutrient‐poor bog to compare their foliar nutrient concentrations, assess their patterns of nutrient limitation using leaf NPK stoichiometry, and estimate percentage N derived from prey by carnivores using a mixing model for stable N isotopes. We hypothesized that (1) carnivore leaf nutrient concentrations approach or exceed those of noncarnivores in the same nutrient‐poor habitat; (2) species in different functional groups show different patterns of stoichiometry and apparent nutrient limitation; and (3) noncarnivores might show evidence of using other means of nutrient acquisition or conservation to reduce nutrient limitation. At Fallison Bog in northern Wisconsin, carnivorous plants (Drosera rotundifolia, Sarracenia purpurea, Utricularia macrorhiza) showed significantly lower leaf percentage C and N:P ratio, higher δ15N, and no difference from noncarnivores in leaf N, P, K, and δ13C. Sedges had significantly lower leaf percentage P, percentage C, and N:K ratio, and higher K:P ratio than nonsedges restricted to the Sphagnum mat, and may tap peat N via aerenchyma‐facilitated peat oxidation (oxipeditrophy). Evergreen ericaceous shrubs exhibited significantly higher levels of percentage C and lower values of δ15N than mat nonericads. Calla palustris—growing in the nutrient‐rich moat at the bog's upland edge—had very high values of leaf N, K, δ15N, and N:P ratio, suggesting that it may obtain nutrients from minerotrophic flows from the adjacent uplands and/or rapidly decaying peat. Stoichiometric analyses indicated that most species are N limited. A mixing model applied to δ15N values for carnivores, noncarnivores, and insects produced an estimate of 50% of leaf N derived from prey for Utricularia, 42% for Sarracenia, and 41% for Drosera.

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Plant distribution, stature, rarity, and diversity in a patterned calcareous fen: tests of geochemical and leaf‐height models

Cited by 7 publications

References 76 publications

Functional traits mediate individualistic species‐environment distributions at broad spatial scales while fine‐scale species associations remain unpredictable

Functional traits mediate individualistic species‐environment distributions at broad spatial scales while fine‐scale species associations remain unpredictable

A new carnivorous plant lineage (Triantha) with a unique sticky-inflorescence trap

Leaf NPK stoichiometry, δ¹⁵N, and apparent nutrient limitation of co‐occurring carnivorous and noncarnivorous plants

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Plant distribution, stature, rarity, and diversity in a patterned calcareous fen: tests of geochemical and leaf‐height models

Cited by 7 publications

References 76 publications

Functional traits mediate individualistic species‐environment distributions at broad spatial scales while fine‐scale species associations remain unpredictable

Functional traits mediate individualistic species‐environment distributions at broad spatial scales while fine‐scale species associations remain unpredictable

A new carnivorous plant lineage (Triantha) with a unique sticky-inflorescence trap

Leaf NPK stoichiometry, δ15N, and apparent nutrient limitation of co‐occurring carnivorous and noncarnivorous plants

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Leaf NPK stoichiometry, δ¹⁵N, and apparent nutrient limitation of co‐occurring carnivorous and noncarnivorous plants