Zoe E. Squires scite author profile

Managing biological invasions relies on good global coverage of species distributions. Accurate information on alien species distributions, obtained from international policy and cross-border co-operation, is required to evaluate trans-boundary and trading partnership risks. However, a standardized approach for systematically monitoring alien species and tracking biological invasions is still lacking. This Perspective presents a vision for global observation and monitoring of biological invasions. We show how the architecture for tracking biological invasions is provided by a minimum information set of Essential Variables, global collaboration on data sharing and infrastructure, and strategic contributions by countries. We show how this novel, synthetic approach to an observation system for alien species provides a tangible and attainable solution to delivering the information needed to slow the rate of new incursions and reduce the impacts of invaders. We identify three Essential Variables for Invasion Monitoring; alien species occurrence, species alien status and alien species impact. We outline how delivery of this minimum information set by joint, complementary contributions from countries and global community initiatives is possible. Country contributions are made feasible using a modular approach where all countries are able to participate and strategically build their contributions to a global information set over time. The vision we outline will deliver wide-ranging benefits to countries and international efforts to slow the rate of biological invasions and minimize their environmental impacts. These benefits will accrue over time as global coverage and information on alien species increases.

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Compensatory growth in tadpoles after transient salinity stress

Squires¹,

Bailey²,

Reina³

et al. 2010

Mar. Freshwater Res.

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Many freshwater habitats worldwide are being degraded by an anthropogenic increase in salinity. Although salt concentrations are known to fluctuate with variable freshwater inflows, we know little about what effects this may have on freshwater organisms. Using a species of frog, Litoria ewingii, we measured tadpole growth both during and after salt stress to determine their capacity to compensate or recover from this stress. During exposure to ecologically relevant concentrations of salt (5%, 10% and 15% seawater), tadpoles grew slower and were significantly smaller than those in our freshwater control (0.4% seawater). Upon return to fresh water, previously salt-exposed tadpoles grew faster than those in the control group, and by the eighth day of the ‘recovery’ period, no longer differed significantly in size. The results of our study demonstrate a capacity for tadpoles to compensate for a period of environmental stress by temporarily increasing growth rate when the stress abates.

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Mating behaviour and general spawning patterns of the southern dumpling squid Euprymna tasmanica (Sepiolidae): a laboratory study

Squires¹,

Norman²,

Stuart‐Fox³

2013

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Multiple Fitness Benefits of Polyandry in a Cephalopod

et al. 2012

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BackgroundSex differences in reproductive investment play a crucial role in sexual conflict. One intriguing aspect of sexual conflict is the evolution of female multiple mating (polyandry), particularly in systems where females receive no obvious direct benefits from males, and where mating is highly costly. Here, theory predicts that polyandrous females can increase their reproductive success by taking advantage of the genetic benefits of mating with multiple males. Cephalopods provide a model system for addressing this question, as all species mate multiply. Here we examine differences in reproductive success between monandrous, multiply mated (to the same male) and polyandrous female dumpling squid (Euprymna tasmanica).Methodology/Principal FindingsWe mated females in the laboratory with two different males (polyandrous; controlling for mating order), or with a single male (monandrous). To control for mating frequency, we mated monandrous females either once (monandrous 1), or with the same male twice (monandrous 2), and measured reproductive success for each of the three treatments (polyandrous, monandrous 1, monandrous 2). Females mated to two different males produced eggs faster and had larger hatchlings relative to egg mass than females mated once with a single male.Conclusions/SignificanceThe benefits of polyandry demonstrated here are the first, to our knowledge, in any cephalopod. These benefits may outweigh the significant costs associated with mating and help to explain how multiple mating has evolved (or is maintained) in this group.

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The energetic cost of mating in a promiscuous cephalopod

2012

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Costs that individuals incur through mating can play an important role in understanding the evolution of life histories and senescence, particularly in promiscuous species. Copulation costs, ranging from energy expenditure to reduced longevity, are widely studied in insects but have received substantially less attention in other taxa. One cost of mating, the energetic cost, is poorly studied across all taxa despite its potential importance for the many species where copulation is physically demanding and/or frequent. Here, we investigated the energetic cost of mating in both male and female dumpling squid ( Euprymna tasmanica ). In this species, copulation can last up to 3 h and requires that the male physically restrains the female. We report that the act of copulation halves the swimming endurance of both sexes, and that they take up to 30 min to recover. Such a reduction in post-copulatory performance may have important implications for predator avoidance, foraging ability and energy allocation. Therefore, quantifying this cost is essential to understand the evolution of reproductive strategies and behaviours such as female receptivity and male and female mating frequency.

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Zoe E. Squires

A vision for global monitoring of biological invasions

Compensatory growth in tadpoles after transient salinity stress

Mating behaviour and general spawning patterns of the southern dumpling squid Euprymna tasmanica (Sepiolidae): a laboratory study

Multiple Fitness Benefits of Polyandry in a Cephalopod

The energetic cost of mating in a promiscuous cephalopod

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