Andrea Aparicio scite author profile

Andrea Aparicio

3Publications

73Citation Statements Received

95Citation Statements Given

How they've been cited

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107

Affiliations

Central University Hospital of Asturias, Universidad Nacional Autónoma de México, Brigham and Women's Hospital

Publications

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The IL-1β (+3953 T/C) gene polymorphism associates to symptomatic lumbar disc herniation

et al. 2011

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Carriers of the CC genotype of the IL-1β (+3953 T/C) SNP were more frequent among LDH patients suggesting some potential role of the IL-1β SNP on LDH pathogenesis. The eNOS (-786 T/C) and iNOS (22 G/A) SNPs were more frequent among the control subjects, suggesting their possible protective role against LDH. Genotyping these SNPs could be useful to identify persons with an increased lifetime risk of disc herniation in whom measures to avoid LDH could be implemented.

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Aboveground biomass in three Sonoran Desert communities: Variability within and among sites using replicated plot harvesting

Búrquez

Martínez‐Yrízar

Núñez

et al. 2010

Journal of Arid Environments

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Structure-based identification of sensor species for anticipating critical transitions

Aparicio

Hernández

Moog

et al. 2021

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

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Ecological systems can undergo sudden, catastrophic changes known as critical transitions. Anticipating these critical transitions remains challenging in systems with many species because the associated early warning signals can be weakly present or even absent in some species, depending on the system dynamics. Therefore, our limited knowledge of ecological dynamics may suggest that it is hard to identify those species in the system that display early warning signals. Here, we show that, in mutualistic ecological systems, it is possible to identify species that early anticipate critical transitions by knowing only the system structure—that is, the network topology of plant–animal interactions. Specifically, we leverage the mathematical theory of structural observability of dynamical systems to identify a minimum set of “sensor species,” whose measurement guarantees that we can infer changes in the abundance of all other species. Importantly, such a minimum set of sensor species can be identified by using the system structure only. We analyzed the performance of such minimum sets of sensor species for detecting early warnings using a large dataset of empirical plant–pollinator and seed-dispersal networks. We found that species that are more likely to be sensors tend to anticipate earlier critical transitions than other species. Our results underscore how knowing the structure of multispecies systems can improve our ability to anticipate critical transitions.

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Andrea Aparicio

The IL-1β (+3953 T/C) gene polymorphism associates to symptomatic lumbar disc herniation

Aboveground biomass in three Sonoran Desert communities: Variability within and among sites using replicated plot harvesting

Structure-based identification of sensor species for anticipating critical transitions

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