The ‘tyranny of reproduction’: Could ectogenesis further women’s liberation?

This paper imagines what the liberatory possibilities of (full) ectogenesis are, insofar as it separates woman from female reproductive function. Even before use with human infants, ectogenesis productively disrupts the biological paradigm underlying current gender categories and divisions of labour. I begin by presenting a theory of women’s oppression drawn from the radical feminisms of the 1960s, which sees oppression as deeply rooted in biology. On this view, oppressive social meanings are overlaid upon biology and body, as artefacts of culture and history. I then argue that ectogenesis should be pursued to replace two modes of assisted gestation that can be seen as outgrowths of oppressive assumptions about women's function, ectogenesis should be pursued to replace two modes of assisted gestation. These are gestational surrogacy and uterine transplant, which arise partly from gendered, pronatalist, and geneticist norms. These practices are supported by assumptions about women’s identity and value. Pursuing technologies such as ectogenesis, which weaken the presumed link between biology and gender, is beneficial to (trans-inclusionary radical) feminist aims, as part of a broad project of challenging dominant power relations resting on and maintaining gender categories. By allowing the conceptual separation of female reproductive function from ‘woman’, ectogenesis raises questions about how we determine who counts in this gender identity, and also how we value those who claim the identity ‘woman’. I conclude that ectogenesis has the potential to challenge traditional patriarchal family structures, and thence all other male-dominated structures (of work, education, cultural production), allowing a reimagining of the family and society in more radical ways than we have yet achieved.     

Equitable access to ectogenesis for sexual and gender minorities

As the technology for ectogenesis continues to advance, the ethical implications of such developments should be thoroughly and proactively explored. The possibility of full ectogenesis remains hypothetical at present, and myriad concerns regarding the safety and efficacy of the technology must be evaluated and addressed, while pressing moral considerations should be fully deliberated. However, it is conceivable that the technology may become sufficiently well established in the future and that eventually full ectogenesis might be deemed ethically acceptable as a reproductive alternative to gestation within a human womb under certain circumstances. If the safety and efficacy of full ectogenesis are established, if ethical dilemmas are sufficiently well addressed, and if the technology is offered as a reproductive option to cisgender heterosexual individuals or couples desiring to become parents, there is a moral obligation grounded in social justice to ensure that full ectogenesis be made available to individuals or couples identifying as members of sexual- or gender-minority groups who likewise seek to pursue parenthood. We examine the history of access to current family-building options, including assisted reproductive technology, surrogacy and adoption, for these populations and conclude that in the absence of robust empirical evidence suggesting an increased risk of harm to children of individuals and couples who identify as members of sexual- or gender-minority groups, equitable access to ectogenesis as a pathway to parenthood for sexual and gender minorities must be assured as a matter of reproductive justice.     

USE OR REFUSE REPRODUCTIVE GENETIC TECHNOLOGIES: WHICH WOULD A ‘GOOD PARENT’ DO?

A number of authors have objected to potential parents' use of reproductive genetic technologies on the grounds that the use of these technologies reflects a morally problematic attitude toward parenting. More specifically, proponents of this view have argued that such a choice is inconsistent with the unconditional acceptance that lies at the heart of praiseworthy parental attitudes. This paper offers a rebuttal of this view by arguing that it is possible for a parent to exhibit unconditional acceptance of the child herself without accepting each of that child's traits. If this is true, the use of reproductive genetic technologies does not inherently undermine appropriate parental attitudes. Further, by working to change some of a child's specific traits, a parent may instead exemplify an aspirational aspect of praiseworthy parenting and so demonstrate appropriate parental attitudes.     

Procreation machines: Ectogenesis as reproductive enhancement,proper medicine or a step towards posthumanism?

Full ectogenesis as the complete externalization of human reproduction by bypassing the bodily processes of gestation and childbirth can be considered the culmination of genetic and reproductive technologies. Despite its still being a hypothetical scenario, it has been discussed for decades as the ultimate means to liberate women from their reproductive tasks in society and hence finally end fundamental gender injustices generally. In the debate about the application of artificial wombs to achieve gender equality, one aspect is barely mentioned but is of crucial relevance from a medical-ethical perspective: whether and how could full ectogenesis be justified as a proper use of medicine? After characterizing the technology as a special form of human enhancement and as an extension of medical practice that goes beyond the traditional field of medicine, this paper critically assesses the theoretical possibilities of legitimizing this extension. We identify two ways of justification: either one argues that ectogenesis fulfils a proper goal of medicine (a justification we call pathologization), or one argues that the application of ectogenesis achieves a non-medical goal (which we call medicalization). Because it is important from a medical-ethical point of view to avoid an inappropriate instrumentalization or misuse of medicine and thus an undue medicalization of non-medical problems, a set of necessary conditions has to be met. It is doubtful whether full ectogenesis for non-medical purposes could fulfil these conditions. Rather, its comprehensive usage could be seen as a revolutionary modification of what it means to be human.     

The ethics of ectogenesis-aided foetal treatment

In this paper, we aim to stimulate ethical debate about the morally relevant connection between ectogenesis and the foetus as a potential beneficiary of treatment. Ectogenesis could facilitate foetal interventions by treating the foetus independently of the pregnant woman and provide easier access to the foetus if interventions are required. The moral relevance hereof derives from the observation that, together with other developments in genetic technology and prenatal treatment, this may catalyse the allocation of a patient status to the foetus. The topic of foetal medicine is of growing interest to clinicians, and it also deserves due attention from an ethical perspective. To the extent that these developments contribute to the allocation of a patient status to the foetus (and to its respective interests for medical treatment), normative questions arise about how moral responsibilities towards foetal interests should be balanced against the interests of the pregnant woman. We conclude that, even if ectogenesis could facilitate foetal therapy, it is important to remain sensitive to the fact that it would not circumvent the key ethical concerns that come with in utero foetal treatment and that it may even exacerbate potential conflicts between directive treatment recommendations and the pregnant woman’s autonomous decision to the contrary.     

青藏高原及周边高山地区的植物繁殖生态学研究进展

青藏高原及周边高山地区孕育了极为丰富的植物多样性资源, 研究该地区植物如何顺利完成繁殖过程有助于我们理解植物对典型高山环境的进化和适应机制。该文综述了青藏高原地区高山植物在资源分配、繁殖方式、花部特征演化等方面的研究进展, 包括全球气候变化对植物繁殖特征的影响, 以及一些新技术和新方法在本研究领域的应用。在高山地区限制性环境中, 随海拔升高, 繁殖分配通常表现出增大的趋势, 其中投入到雄性资源的比例上升, 但具体的资源分配模式还要取决于植株的交配系统、个体大小、生活史特征、遗传特性以及环境中的资源有效性等。面对资源和传粉的双重限制, 植物在不同繁殖方式之间存在权衡, 当传粉者稀少时, 克隆繁殖和自交有利于繁殖保障; 而有性繁殖和异交能够提高种子的质量和后代的遗传多样性, 从而在复杂多变的气候条件下有利于种群的维持。因此, 不同繁殖方式的结合以及泛化的传粉互作网络可能是应对高山限制性环境的最优选择。花部特征的演化主要受到当地传粉者的选择压力, 但是外来传粉者、植食者、盗蜜者以及非生物环境(如温度、雨水和紫外辐射等)对花部性状的影响越来越受到重视。近年来, 青藏高原因其脆弱性和对气候变化的高度敏感性而在全球气候变化研究中备受关注, 以全球变暖和氮沉降增加为显著特征的全球气候变化正在直接或间接地影响着该地区高山植物的繁殖特征。气候变化影响植物和传粉者的物候并引起物种的迁移, 最终将导致植物与传粉者的时空不匹配。植物通过改变花部特征(花展示、花冠结构、花报酬的数量和质量)来响应气候变化, 这可能会改变其传粉者的类型、数量和访花行为, 从而最终影响植物的繁殖成功。3D打印和高通量测序等新技术和新方法的应用有助于促进植物繁殖生态学研究的进一步发展。3D打印的花能够精确控制其形态构造, 可以用于研究精细的花部特征变化对于传粉者行为的影响, 在此基础上与人工饲养的传粉者结合使用, 有助于进一步研究传粉者介导的花部特征演化。随着高通量测序技术的发展, 植物繁殖生态学领域, 尤其是花部特征演化的许多重要问题的潜在机制得以深入研究。该文最后提出了目前研究中需要注意的问题以及值得深入研究的发展方向。     

The inevitability of genetic enhancement technologies

We outline a number of ethical objections to genetic technologies aimed at enhancing human capacities and traits. We then argue that, despite the persuasiveness of some of these objections, they are insufficient to stop the development and use of genetic enhancement technologies. We contend that the inevitability of the technologies results from a particular guiding worldview of humans as masters of the human evolutionary future, and conclude that recognising this worldview points to new directions for ethical thinking about genetic enhancement technologies.     

Ectogenesis and gender-based oppression: Resisting the ideal of assimilation

In a recent article in this journal, Kathryn MacKay advances a defence of ectogenesis that is grounded in this technology’s potential to end—or at least mitigate the effects of—gender-based oppression. MacKay raises important issues concerning the socialization of women as ‘mothers’, and the harms that this socialization causes. She also considers ectogenesis as an ethically preferable alternative to gestational surrogacy and uterine transplantation, one that is less harmful to women and less subject to being co-opted to further oppressive ends. In this article, I challenge some of the assumptions that underlie MacKay’s case in favour of ectogenesis by questioning whether the relationship between women’s capacity to gestate and birth children and gender-based oppression is as strong as MacKay makes it out to be. I subsequently argue that—even if MacKay’s reading of this relationship is accurate—ectogenesis is not a desirable means to end gender-based oppression. It embodies a strategy that could be used to pursue liberating projects that follow what Iris Marion Young defines as ‘the ideal of assimilation’, but that must be resisted. I then concur with MacKay’s contention that ectogenesis is better than gestational surrogacy and uterine transplantation. My argument is that many of the problematic issues that MacKay herself sees as features of these practices will not disappear with ectogenesis. Finally, I conclude that MacKay’s narrow focus on women’s biology and ectogenesis as a solution to gender-based oppression results in the overlooking of broader systemic issues that contribute to the upholding of oppressive norms.     

DNA分子标记、基因组作图及其在植物遗传育种上的应用

本文总结了现代分子生物学所发展的各类分子标记及其在遗传图谱构建中的作用,还综述了遗传图谱与物理图谱的构建、数量与质量性状定位及分子标记在作物育种中的应用。     

Phenotypic and genetic analysis of reproductive traits in horse populations with different breeding purposes

Reproductive traits have a major influence on the economic effectiveness of horse breeding. However, there is little information available. We evaluated the use of reproductive traits as selection criteria in official breeding programs to increase the reproductive efficiency of breeding studs, analysing 696 690 records from the pedigree data of eight Spanish horse populations, with different breeding purposes. The reproductive parameters studied in both sexes were age at first foaling (AFF), age at last foaling, average reproductive life and generational interval. In the females, the average interval between foaling (AIF) and interval between first and second foaling were also studied. There were clear differences between sexes and breeds, which may be due to management practices, breeding purposes and the status of the populations, rather than to differences in actual physiological conditions. Riding mares were the most precocious (AFF, 1937.64 to 2255.69 days) and had a more intensive reproductive use (AIF, 625.83 to 760.07 days), whereas sires used for meat production were the most precocious males (AFF, 1789.93 to 1999.75 days), although they had a shorter reproductive life (1564.34 to 1797.32 days). Heritabilities (0.02 to 0.42 in females and 0.04 to 0.28 in males) evidenced the genetic component of the reproductive traits, with Sport Horses having the higher average values. These results support the selection by AFF to improve reproductive aspects because of its medium–high heritability and its positive correlations with other important reproductive traits. The inclusion of the AIF is also recommended in sport populations, because this determines the length of the breaks between foaling and conditions the reproductive performance of the dams, as well as their selective intensity, genetic gain and genetic improvement. It is therefore an important economic parameter in breeding studs.     

DOES TOTAL REPRODUCTIVE EFFORT EVOLVE INDEPENDENTLY OF OFFSPRING SIZE?

In all species, patterns of reproductive allocation have important fitness consequences and therefore important implications for life-history evolution. Nearly universally, theory in this field has modeled as independent the evolution of total allocation to offspring and the subsequent division of this allocation into many small versus few large offspring. Yet, some theory and a very small amount of experimental evidence suggest that these life-history traits may be evolutionarily linked. Using comparative analyses of copepod life histories, we illustrate that rather than being evolutionarily independent these traits can be linked, in this case, across a very large clade of invertebrates. Our results indicate that a more complete understanding of the evolution of these traits will require greater consideration of simultaneous allocation decisions, rather than sequential ones, and other genetic and selective mechanisms.     

Public perspectives on genetic biocontrol technologies for controlling invasive fish

Understanding people’s knowledge, attitudes, and concerns about genetic biocontrol can help researchers understand the challenges and opportunities that may be encountered during development of these technologies. This study conducted eight focus groups in the United States Great Lakes and Lake Champlain region to assess different stakeholders’ views about genetic biocontrol technology, factors affecting whether or not they support its use, and recommendations on how to proceed with its development. Stakeholders were excited about having a new invasive species control tool, but they were deeply concerned about potential unintended consequences. The primary concerns relate to ecological impacts, along with the cost of development and the possibility that such efforts will distract from other, ongoing control work. Participants made a number of recommendations to genetic biocontrol developers, including setting up regulatory systems, conducting independent cost benefit analyses and risk assessments, and engaging stakeholders throughout the development process.     

Towards molecular breeding of reproductive traits in cereal crops

The transition from vegetative to reproductive phase, flowering per se , floral organ development, panicle structure and morphology, meiosis, pollination and fertilization, cytoplasmic male sterility (CMS) and fertility restoration, and grain development are the main reproductive traits. Unlocking their genetic insights will enable plant breeders to manipulate these traits in cereal germplasm enhancement. Multiple genes or quantitative trait loci (QTLs) affecting flowering (phase transition, photoperiod and vernalization, flowering per se ), panicle morphology and grain development have been cloned, and gene expression research has provided new information about the nature of complex genetic networks involved in the expression of these traits. Molecular biology is also facilitating the identification of diverse CMS sources in hybrid breeding. Few Rf (fertility restorer) genes have been cloned in maize, rice and sorghum. DNA markers are now used to assess the genetic purity of hybrids and their parental lines, and to pyramid Rf or tms (thermosensitive male sterility) genes in rice. Transgene(s) can be used to create de novo CMS trait in cereals. The understanding of reproductive biology facilitated by functional genomics will allow a better manipulation of genes by crop breeders and their potential use across species through genetic transformation.     

Ectogenesis: a reply to Singer and Wells

The possibility of achieving ectogenesis, or the growing of a human fetus to term in an artificial womb, is approaching reality as a result of advances in treatment of premature newborns and in in vitro fertilization techniques. In their 1984 book, The Reproductive Revolution, issued in North America as Making Babies, Peter Singer and Deane Wells offered several arguments for ectogenesis. James examines their arguments and rejects two of them, that ectogenesis offers a less problematic alternative to surrogate motherhood, and that ectogenesis could make it possible to reconcile fetal rights with the right to abortion on demand. He grants Singer and Wells' argument that the childless have a claim to state support of their desire to nurture, but contends that government-supported ectogenesis should still be rejected because the adoption of unwanted children is a preferable alternative to the use of an exotic, expensive, and still unproven technology.     

In vitro gametogenesis and reproductive cloning: Can we allow one while banning the other?

In vitro gametogenesis (IVG) is believed to be the next big breakthrough in reproductive medicine. The prima facie acceptance of this possible future technology is notable when compared to the general prohibition on human reproductive cloning. After all, if safety is the main reason for not allowing reproductive cloning, one might expect a similar conclusion for the reproductive application of IVG, since both technologies hold considerable and comparable risks. However, safety concerns may be overcome, and are presumably not the sole reason why cloning is being condemned. We therefore assess the non‐safety arguments against reproductive cloning, yet most of these can also be held against IVG. The few arguments that cannot be used against IVG are defective. We conclude from this that it will be hard to defend a ban on reproductive cloning while accepting the reproductive use of IVG.     

The prospect for international regulatory interventions in embryo transfer and reproductive technologies in the next century

Historically, international regulatory interventions in the area of animal reproductive technologies have focused on the need for mitigation against the dissemination of diseases with the movement of genetics and germplasm across international borders. The continued globalization of agriculture under the Sanitary/Phytosanitary (SPS) Agreement of the World Trade Organization (WTO) ensures that disease considerations arising from third and fourth generation reproductive technologies such as in vitro fertilized embryos, transgenics and xenotransplantation will continue to give rise to animal health regulatory measures. Furthermore, in the aftermath of the raising of the public consciousness and the ensuing consumer confidence crisis concerning animal husbandry and livestock production practices following the Bovine Spongiform Encephalopathy outbreak, evolving societal values are expected to expand regulatory considerations to address veterinary public health and ethical concerns. Consequently, it is expected that the role of the International Embryo Transfer Society in fostering meaningful dialogue and profiling of the research necessary to provide for appropriate science based regulation development will increase in importance.     

Development and application of biological technologies in fish genetic breeding

Fish genetic breeding is a process that remolds heritable traits to obtain neotype and improved varieties.For the purpose of genetic improvement,researchers can select for desirable genetic traits,integrate a suite of traits from different donors,or alter the innate genetic traits of a species.These improved varieties have,in many cases,facilitated the development of the aquaculture industry by lowering costs and increasing both quality and yield.In this review,we present the pertinent literatures and summarize the biological bases and application of selection breeding technologies(containing traditional selective breeding,molecular marker-assisted breeding,genome-wide selective breeding and breeding by controlling single-sex groups),integration breeding technologies(containing cross breeding,nuclear transplantation,germline stem cells and germ cells transplantation,artificial gynogenesis,artificial androgenesis and polyploid breeding)and modification breeding technologies(represented by transgenic breeding)in fish genetic breeding.Additionally,we discuss the progress our laboratory has made in the field of chromosomal ploidy breeding of fish,including distant hybridization,gynogenesis,and androgenesis.Finally,we systematically summarize the research status and known problems associated with each technology.     

IVF and women's interests: an analysis of feminist concerns

Feminist objections to the new reproductive technologies are examined. The author argues that although these technologies entail significant risks and costs to women, help only a small minority, and do not address the underlying social causes of infertility, women's interests do not demand the rejection of research on and use of reproductive technologies. Their potential threat to female reproductive autonomy can be counteracted by protecting individual civil rights. Warren urges that women, as well as members of various racial, ethnic, and socioeconomic groups, be represented in decisions on reproductive technologies, participate in their development and funding, and supervise their provision.     

Phenotypic and genetic consequences of size selection at the larval stage in the Pacific oyster (Crassostrea gigas)

The life histories of oysters in the genus Crassostrea, like those of most marine bivalves, are typified by high fecundity and low survival in nature. Rearing conditions in hatcheries however ensure optimized density, diet, and temperature. Hatcheries are becoming increasingly important for the production of juveniles in aquaculture, and their culture practices often include culling of slow growing larvae to reduce and synchronize the time taken to reach settlement. Because previous studies have found substantial genetic variation for early life developmental traits in Crassostrea gigas, these culling practices are likely to cause highly different selective pressures in hatcheries from those in the natural environment. We studied the phenotypic and genetic impact of such culling practices in a factorial cross between 10 males and 3 females subjected to progressive culling of the smallest 50% of larvae, compared with a non-culled control. Measurements were made on larval growth, survival, time taken to attain pediveliger stage and settlement success. Culling had a larger effect on the variance of these larval traits than on their means. The larvae in culled cultures were approximately 10% larger than those in controls, whereas the coefficient of variation was reduced by 30-40%. Culling also reduced the mean time to settlement by 12% and its variance by 55%. Using a multiplexed set of microsatellite markers to trace parentage, we also estimated the variance in reproductive success in a controlled experiment to quantify the consequences of intensive hatchery rearing practices. We also focused on changes in effective population size and genetic structure over time (and developmental stages). Our results show a loss of genetic diversity following removal of the smallest larvae by culling, as well as temporally varying genetic structure of the larval population. This supports the existence of genetic variability in early life developmental traits in C. gigas. Culling in hatcheries, like size-related selective pressures in the wild, are likely to have a significant genetic impact, through their effects on the timing of settlement.     

Genomics to accelerate genetic improvement in tilapia

Selective breeding of tilapia populations started in the early 1990s and over the past three decades tilapia has become one of the most important farmed freshwater species, being produced in more than 125 countries around the globe. Although genome assemblies have been available since 2011, most of the tilapia industry still depends on classical selection techniques using mass spawning or pedigree information to select for growth traits with reported genetic gains of up to 20% per generation. The involvement of international breeding companies and research institutions has resulted in the rapid development and application of genomic resources in the last few years. GWAS and genomic selection are expected to contribute to uncovering the genetic variants involved in economically relevant traits and increasing the genetic gain in selective breeding programs, respectively. Developments over the next few years will probably focus on achieving a deep understanding of genetic architecture of complex traits, as well as accelerating genetic progress in the selection for growth-, quality- and robustness-related traits. Novel phenotyping technologies (i.e. phenomics), lower-cost whole-genome sequencing approaches, functional genomics and gene editing tools will be crucial in future developments for the improvement of tilapia aquaculture.