Joanna Zhao scite author profile

Underdominance systems can quickly spread through a population, but only when introduced in considerable numbers. This promises a gene drive mechanism that is less invasive than homing drives, potentially enabling new approaches in the fight against vector-borne diseases. If regional confinement can indeed be achieved, the decision-making process for a release would likely be much simpler compared to other, more invasive types of drives. The capacity of underdominance gene drive systems to spread in a target population without invading other populations is typically assessed via network models of panmictic demes linked by migration. However, it remains less clear how such systems would behave in more realistic population models where organisms move over a continuous landscape. Here, we use individual-based simulations to study the dynamics of several proposed underdominance systems in continuous-space. We find that all these systems can fail to persist in such environments, even after an initially successful establishment in the release area, confirming previous theoretical results from diffusion theory. At the same time, we find that a two-locus two-toxin-antidote system can invade connected demes through a narrow migration corridor. This suggests that the parameter space where underdominance systems can establish and persist in a release area while at the same time remaining confined to that area could be quite limited, depending on how a population is spatially structured. Overall, these results indicate that realistic spatial context must be considered when assessing strategies for the deployment of underdominance drives.

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Population dynamics of underdominance gene drive systems in continuous space

Champer¹,

Zhao²,

Champer³

et al. 2018

Preprint

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Underdominance gene drive systems promise a mechanism for rapidly spreading payload alleles through a local population while otherwise remaining confined, unable to spread into neighboring populations due to their frequency-dependent dynamics. Such systems could provide a new tool in the fight against vector-borne diseases by disseminating transgenic payloads through vector populations. If local confinement can indeed be achieved, the decision-making process for the release of such constructs would likely be considerably simpler compared to other gene drive mechanisms such as CRISPR homing drives. So far, the confinement ability of underdominance systems has only been demonstrated in models of panmictic populations linked by migration. How such systems would behave in realistic populations where individuals move over continuous space remains largely unknown. Here, we study several underdominance systems in continuous-space population models and show that their dynamics are drastically altered from those in panmictic populations. Specifically, we find that all underdominance systems we studied can fail to persist in such environments, even after successful local establishment. At the same time, we find that a two-locus two-toxin-antitoxin system can still successfully invade neighboring populations in many scenarios even under weak migration. This suggests that the parameter space for underdominance systems to both establish in a given region and remain confined to that region would likely be highly limited. Overall, these results indicate that spatial context must be considered when assessing strategies for the deployment of underdominance systems.

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Theories applicable to corporate climate change disclosure

Ying

Zhao

Yang

2022

J Corp Accounting Finance

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Increasing public attention to climate change has led to many studies to investigate the impact of climate change in various fields. However, the topic demands a further thorough examination of the impact of climate change on firms' accounting behavior, such as firm disclosure. There are currently no mandatory U.S. accounting standards issued by accounting standards-setting bodies such as the FASB or SEC on reporting the impact of climate change on firms' business. However, firms have started to report the impact of climate change on a voluntary basis. In order to help academia, professionals, and investors better understand voluntary climate change disclosure, this study surveys theories of corporate accounting disclosure related to corporate social responsibility and environmental reporting, particularly in the areas of voluntary climate change disclosure.This study integrates multi-dimensional corporate climate change disclosure theories to help future policymakers, investors, and other stakeholders provide appropriate corporate climate disclosure theoretical assistance and respond to the government and society's calls for a low-carbon economy.

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Distribution characteristics of Meridian Sinew (Jingjin) syndrome in 313 cases of whiplash-associated disorders

Chen

Zhao

Xue

et al. 2014

Chin. J. Integr. Med.

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A functional regression analysis of vessel source level measurements from the Enhancing Cetacean Habitat and Observation (ECHO) database

MacGillivray¹,

Ainsworth²,

Zhao³

et al. 2022

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Measurements of the source levels of 9880 passes of 3188 different large commercial ships from the Enhancing Cetacean Habitat and Observation (ECHO) program database were used to investigate the dependencies of vessel underwater noise emissions on several vessel design parameters and operating conditions. Trends in the dataset were analyzed using functional regression analysis, which is an extension of standard regression analysis and represents a response variable (decidecade band source level) as a continuous function of a predictor variable (frequency). The statistical model was applied to source level data for six vessel categories: cruise ships, container ships, bulk carriers, tankers, tugs, and vehicle carriers. Depending on the frequency band and category, the functional regression model explained approximately 25%–50% of the variance in the ECHO dataset. The two main operational parameters, speed through water and actual draft, were the predictors most strongly correlated with source levels in all of the vessel categories. Vessel size (represented via length overall) was the design parameter with the strongest correlation to underwater radiated noise for three categories of vessels (bulkers, containers, and tankers). Other design parameters that were investigated (engine revolutions per minute, engine power, design speed, and vessel age) had weaker but nonetheless significant correlations with source levels.

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Joanna Zhao

Population Dynamics of Underdominance Gene Drive Systems in Continuous Space

Population dynamics of underdominance gene drive systems in continuous space

Theories applicable to corporate climate change disclosure

Distribution characteristics of Meridian Sinew (Jingjin) syndrome in 313 cases of whiplash-associated disorders

A functional regression analysis of vessel source level measurements from the Enhancing Cetacean Habitat and Observation (ECHO) database

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