Adaptation to a limiting element involves mitigation of multiple elemental imbalances

Jeyasingh, Punidan D.; Sherman, Ryan E.; Prater, Clay; Pulkkinen, Katja; Ketola, Tarmo

doi:10.1098/rsif.2022.0472

Cited by 7 publications

(3 citation statements)

References 62 publications

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“…All living things depend heavily on N and P for their proper functioning, and the way these elements move and are recycled in the environment is largely controlled by biological mechanisms (Sterner & Elser 2002). These elements have therefore played (Williams & Rickaby 2012), and continue to play (Jeyasingh et al 2023), an important role in biochemical evolution, shaping the life histories of organisms and their ecological interactions (Isanta-Navarro et al 2022;Sterner & Elser 2002). Assuming that N and P have played an essential role in the evolution of plant-pollinator interactions due to their biological significance, it is reasonable to anticipate that animal-pollinated plants would exhibit higher concentrations of these elements in their pollen than wind-pollinated plants.…”

Section: Discussionmentioning

confidence: 99%

“…Within this context, organismal traits associated with foraging and nutrient processing are under selection pressure and significantly impact the elemental composition of an organism Jeyasingh & Weider 2007). Consequently, the ionome, which means a whole set of ~25 elements involving organismal bodies (Jeyasingh et al 2014;Salt et al 2008;Williams & da Silva 2006), is subject to selection (Jeyasingh et al 2014(Jeyasingh et al , 2023Kay & Vrede 2008). With reference to these fundamental laws of nature, the concept of the biogeochemical niche has been developed (Peñuelas et al 2008(Peñuelas et al , 2019.…”

Section: Introductionmentioning

confidence: 99%

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Wild Bee is an Important Contributor to the Nutrient Cycle, as Shown by Biogeochemical Niche Analysis of Osmia Bicornis

Filipiak

2023

Preprint

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Wild Bee is an Important Contributor to the Nutrient Cycle, as Shown by Biogeochemical Niche Analysis of Osmia Bicornis

Filipiak

2023

Preprint

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“…The overall growth of an organism is then the result of the interactions of all of these resources, or their combined limitation. Furthermore, due to the interconnected nature of these resources, changing the supply of one resource may have a cascading effect on the acquisition and processing of other resources [3,4]. Recent studies have reconciled LLM to be a special case within the complex growth dynamics plane [5][6][7][8].…”

Section: Introductionmentioning

confidence: 99%

Rich Dynamics of a General Producer–Grazer Interaction Model under Shared Multiple Resource Limitations

2023

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Organism growth is often determined by multiple resources interdependently. However, growth models based on the Droop cell quota framework have historically been built using threshold formulations, which means they intrinsically involve single-resource limitations. In addition, it is a daunting task to study the global dynamics of these models mathematically, since they employ minimum functions that are non-smooth (not differentiable). To provide an approach to encompass interactions of multiple resources, we propose a multiple-resource limitation growth function based on the Droop cell quota concept and incorporate it into an existing producer–grazer model. The formulation of the producer’s growth rate is based on cell growth process time-tracking, while the grazer’s growth rate is constructed based on optimal limiting nutrient allocation in cell transcription and translation phases. We show that the proposed model captures a wide range of experimental observations, such as the paradox of enrichment, the paradox of energy enrichment, and the paradox of nutrient enrichment. Together, our proposed formulation and the existing threshold formulation provide bounds on the expected growth of an organism. Moreover, the proposed model is mathematically more tractable, since it does not use the minimum functions as in other stoichiometric models.

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Coexistence of Tree Species Promotes the Similarity of the Elementome in Soil Profiles

Zhang

Huang

et al. 2023

J Soil Sci Plant Nutr

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Purpose: The soil elementome has been recently proposed as a promising novel approach for describing the response of soil bioelemental composition to tree species. Using bioelement stoichiometry, we explored the effects of soil biogeochemical processes and tree species coexistence on soil elementome. Methods: Soil bioelements were analyzed at three soil layers (A, B and C horizons) in four forests (Picea asperata (PA), Larix principis-rupprechtii (LP), Betula Platyphylla (BP), and Betula Platyphylla -Larix principis-rupprechtii (L-B) mixed forest) in Chongli District, Zhangjiakou City, Hebei Province, China., The soil elementomes of 11 bioelements (C, N, P, O, S, K, Ca, Na, Mg, Mn and Cr) were analyzed by principal component analysis (PCA) based on soil C:N:P stoichiometry. We calculated elementome distance (ED) to examine differences between soil horizons and forests.Results: We found that soil elementomes in the soil layers decreased with depth and that ED between the B and C horizons was larger than that between A and B horizons. Moreover, differences in soil elementomes were smaller for tree species that often coexist compared to those that rarely live together.Conclusions: Our results suggest that tree species coexistence promotes similarity in soil elementomes probably due to creation of similar soil conditions. The ndings of this research provide a new understanding about the relationship between tree species coexistence and soil bioelemental composition or stoichiometry.

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Adaptation to a limiting element involves mitigation of multiple elemental imbalances

Cited by 7 publications

References 62 publications

Wild Bee is an Important Contributor to the Nutrient Cycle, as Shown by Biogeochemical Niche Analysis of Osmia Bicornis

Wild Bee is an Important Contributor to the Nutrient Cycle, as Shown by Biogeochemical Niche Analysis of Osmia Bicornis

Rich Dynamics of a General Producer–Grazer Interaction Model under Shared Multiple Resource Limitations

Coexistence of Tree Species Promotes the Similarity of the Elementome in Soil Profiles

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