The conservation of plants has not generated the sense of urgency—or the funding—that drives the conservation of animals, although plants are far more important for us. There are an estimated 500,000 ...species of land plants (angiosperms, gymnosperms, ferns, lycophytes, and bryophytes), with diversity strongly concentrated in the humid tropics. Many species are still unknown to science. Perhaps a third of all land plants are at risk of extinction, including many that are undescribed, or are described but otherwise data deficient. There have been few known global extinctions so far, but many additional species have not been recorded recently and may be extinct. Although only a minority of plant species have a specific human use, many more play important roles in natural ecosystems and the services they provide, and rare species are more likely to have unusual traits that could be useful in the future. The major threats to plant diversity include habitat loss, fragmentation, and degradation, overexploitation, invasive species, pollution, and anthropogenic climate change. Conservation of plant diversity is a massive task if viewed globally, but the combination of a well-designed and well-managed protected area system and ex situ gap-filling and back-up should work anywhere. The most urgent needs are for the completion of the global botanical inventory and an assessment of the conservation status of the 94% of plant species not yet evaluated, so that both in and ex situ conservation can be targeted efficiently. Globally, the biggest conservation gap is in the hyperdiverse lowland tropics and this is where attention needs to be focused.
Captive breeding is an integral part of global conservation efforts despite high costs and adverse genetic effects associated with unavoidably small population sizes. Supplementing captive‐bred ...populations with biobanked founder sperm to restore genetic diversity offers a solution to colony size, costs and inbreeding, yet is rarely done, partly due to a lack of concrete examples or awareness amongst the conservation community of the huge potential benefits. We present a model system of the cost and genetic benefits achieved by incorporating biobanking into captive breeding of Oregon spotted frogs (Rana pretiosa). Backcrossing with frozen sperm every generation resulted in very large reductions in required programme expenditure compared to traditional captive breeding. This model supports the view that integration of biobanking into captive breeding would make longstanding and previously unachievable genetic diversity retention targets feasible (90% source population heterozygosity for a minimum of 100 years) at much reduced costs. This study suggests that the credibility of captive breeding as a conservation strategy would be enhanced by integrating genome storage and assisted breeding to produce far larger numbers of animals of higher genetic quality. This innovation would justify increased public and agency support for captive breeding.
Translocation of plants has become a common approach in conservation biology in the past two decades, but it is not clear how successful it is in achieving long-term conservation outcomes. We ...combined a literature review with extensive consultations with translocation practitioners to compile data on translocations of threatened Australian plants. We documented 1001 translocations involving 376 taxa, concentrated in regions and habitats with high numbers of threatened species. Only 109 translocation attempts encompassing 71 taxa are documented in peer-reviewed literature. Over 85% of translocations have occurred since 2000 and half since 2010, with an especially rapid increase in development mitigation translocations, which account for 30% of all translocations documented. Many translocations involved extremely small numbers of propagules, with 45% using <50 propagules and only 16% >250. Of the 724 translocations with sufficient data to assess performance, 42% have <10 plants surviving, and 13% have at least 50 plants surviving and some second-generation recruitment into the population. Translocation performance, measured by number of plants surviving and second-generation recruitment, was highly variable between plant lifeforms, habitats and propagule type. However, species was more variable than all of these, suggesting that some species are more conducive to translocation than others. Use of at least 500 founder individuals increased the chances of creating a viable population. Four decades after the first conservation translocations, our evaluation highlights the need to consider translocation in the broad context of conservation actions for species recovery and the need for long-term commitment to monitoring, site maintenance and documentation.
The golden-headed lion tamarin (Leontopithecus chrysomelas) is an endangered primate endemic to the Atlantic Forest. Conservation efforts for the species involve applying reproductive biotechniques ...to preserve genetic resources and ensure the management of populations in both ex situ and in situ conditions. This study aims to initiate investigations into seminal and molecular factors influencing the reproductive potential of sexually mature males. Semen was collected using the penile vibrostimulation technique, and seminal parameters were assessed in two groups: the 'Old' group (average age 11.6 years; n=6) and the 'Young' group (average age 4.8 years; n=6). ANOVA results indicated age-related influences on plasma membrane integrity (p=0.049), acrosomal integrity (p=0.009), and DAB IV (p=0.026) for both groups. Linear regression revealed significant correlations between seminal parameters and age (plasma membrane integrity (p=0.021), acrosomal integrity (p=0.05), and DAB III (p=0.024)), alongside animal weight (plasma membrane integrity (p=0.010), acrosomal integrity (p=0.009), DAB III (p=0.33), and DAB IV (p=0.066)). In an effort to advance reproductive techniques and sperm selection, a protocol utilizing a discontinuous Percoll gradient was employed. Despite its effectiveness in isolating gametes, there were no significant gains in the reevaluated parameters post-selection, necessitating adjustments in the methodology. While semen cryopreservation is common in wild species, challenges arise due to seminal coagulum in many neotropical primate ejaculates, hindering gamete use in reproductive procedures. Given the precious nature of and the considerable effort involved in collecting semen from these animals, it would be desirable to maximize the sample's utility. The liquid fraction could be applied in reproductive biotechniques, while the spermatozoa contained in the clot could be utilized as a non-invasive approach for molecular evaluation of these gametes. This study established a protocol for RNA extraction from sperm retained in the seminal coagulum, highlighting its genetic richness often discarded post-processing. In summary, our study emphasizes the importance of early cryopreservation of semen to safeguard the reproductive potential of L. chrysomelas. Additionally, we propose further exploration of RNA quantity in gametes as a non-invasive tool for inferring male fertility, given the pivotal role of sperm RNA transcripts in regulating the activation of the female gamete and gene expression during early embryo development.
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•Age influences seminal parameters in golden-headed lion tamarins, stressing early semen collection and cryopreservation.•Weight in golden-headed lion tamarins also influences seminal parameters•Propose a novel RNA extraction from sperm in tamarins' seminal coagulum for non-invasive fertility analysis. • Cryopreserving semen at a young age is crucial for preserving reproductive potential and optimizing its use in conservation.·
Conservation breeding programs are an increasingly important tool to help supplement declining wild populations, but captive‐bred animals generally do not survive well post‐release. Early life in ...captivity has the potential to influence growth and development, with impacts carrying over to affect survival. Understanding carry‐over effects of captivity and consequences on survival is critically important for conservation efforts globally but remains poorly understood. We examined the relationship between early‐life environment, physical condition, and juvenile survival of wild and captive‐bred critically endangered orange‐bellied parrots (Neophema chrysogaster). Using nestling growth models, we calculated a body condition index for 1,039 wild and captive‐bred orange‐bellied parrots hatched over six breeding seasons. Nestling body condition varied with year, provenance, and brood position. Wild nestlings had consistently higher body condition than captive‐bred nestlings, and first‐hatched nestlings were typically heavier than later hatched siblings. We then investigated first‐year survival for 298 wild‐born and captive‐bred released parrots in the wild. Overall, first‐year survival was 27.5%, and individual body condition was more influential than provenance in predicting survival. Our findings could be used to aid the selection of individuals for release that have the best prospects of surviving in the wild. This study addresses important questions about the post‐release fitness of captive‐bred animals, and our metric of assessing physical condition provides a straightforward tool for other conservation breeding programs to adapt management techniques to improve survival outcomes.
Conservation breeding programs are an increasingly important tool to help supplement declining wild populations, but captive‐bred animals generally do not survive well post‐release. We investigated both the impacts of captivity on physical condition and carry over effects on post‐release fitness for the critically endangered orange‐bellied parrot (Neophema chrysogaster). We demonstrate that while captivity can impact physical condition, captive‐bred juveniles are not inherently disadvantaged compared to wild‐hatched conspecifics. As more species continue to decline around the world and captive‐breeding programs continue to be a widespread conservation tool, understanding how to improve the post‐release survival of translocated individuals is a conservation priority.
The multiple, complex risks to plant species survival are increasing, and conservation strategies that include ex situ as well as in situ approaches are needed now more than ever. Seed banking ...(drying at c.15% relative humidity and then storing at −20 °C) is the most efficient and effective ex situ method for long-term conservation for a majority of plant species. However, some plant species are not amenable to this practice, and such species have been labeled exceptional. Critical limitations to conventional seed banking include: 1) the unavailability of sufficient seed for storage; 2) seeds that are completely intolerant of the drying process (recalcitrant); 3) fully or partially desiccation tolerant seeds that are short-lived or sensitive to storage in a conventional freezer; and 4) seeds exhibiting complex dormancies that significantly hinder post-storage germination. Here we describe species examples to illustrate the key features of these four factors of exceptionality. This definition of exceptionality will provide the foundation for identifying exceptional species and directing resources to the appropriate approaches needed for their conservation. The long-term ex situ conservation of exceptional species will require living collections, as well as technologies involving expertise in cryobiotechnology, seed biology, plant physiology, plant ecology, and horticulture, emphasizing the importance of fully integrating multi-disciplinary conservation actions underpinned by training and knowledge exchange. Given that the number of known exceptional species is anticipated to increase substantially with further research, we call for immediate, concerted, and focused international action to address the conservation needs of the world's exceptional plant species.
•Exceptional plants cannot be effectively conserved in conventional seed banks.•They pose challenges to the steps of seedbanking: collect, process, store, recover.•Exceptional species are defined by an exceptionality factor based on these steps.•This definition can help develop strategic conservation action for these species.
ABSTRACT Storage of diaspores makes it possible to provide seedlings for reforestation programs or restoration of degraded areas, especially for perennial species that do not regularly produce ...diaspores or when germination is difficult and slow. The objective of the present study was to verify the physiological potential of Schinopsis brasiliensis diaspores stored in two environments for 12 months, with subsequent manual scarification of the endocarp. The experimental design was entirely randomized, using a 2 × 7 × 2 factorial scheme, with two environments (natural and refrigerator), seven periods (0, 2, 4, 6, 8, 10 and 12 months) of storage, and two physical conditions of the endocarp (intact and scarified). The study analyzed water content, emergence, speed index and mean emergence time, length and dry mass of the aerial part and root system, and collar diameter of the seedlings. The 12 month storage did not overcome the tegument dormancy of S. brasiliensis diaspores. After storage in the natural environment, manual scarification favored emergence and the seedlings' speed of establishment. The diaspores presented increased germination capacity at five months and decreased seedling development before losing their germination capacity, regardless of storage conditions.
The Millennium Seed Bank (MSB) Partnership, developed and managed by the Royal Botanic Gardens, Kew (RBG Kew), conserves propagules primarily from orthodox seed-bearing wild vascular plants. It is ...the largest ex situ conservation programme in the world, currently involving 96 countries and territories. Where possible, seeds are collected and conserved in the country of origin with duplicates being sent to RBG Kew’s MSB for storage. In this paper we assess the conservation value of the germplasm stored at the MSB using both quantitative and qualitative methods. The MSB holdings represent a high quality, rich biological resource. Substantial and unique taxonomic diversity exists amongst the collections, representing 365 families, 5813 genera, 36,975 species and 39,669 taxa conserved. The collections cover a wide geographic range, originating from 189 countries and territories, representing all nine bio-geographic regions and all 35 biodiversity hotspots. The collections possess significant natural capital and population value: 32% of taxa, representing 49% of collections, have at least one identified use to humans; and 74% of taxa, representing 78% of collections, are either endemic, endangered (nationally or globally) and/or have an economic, ecological, social, cultural or scientific value. While 10% of taxa, representing > 8% of collections, are either extinct, rare or vulnerable to extinction at the global and/or national level, 20% of taxa, representing 13% collections, are endemic at the country or territory scale. Over the 17-year period since 2000 at least 11,182 seed samples, representing 12% of taxa and 8% of collections, have been distributed globally for conservation, research, education and display. This analysis highlighted collection gaps in MSB holdings in relation to their geographic representativeness, the taxonomic diversity of large families and genera of angiosperms, and coverage of threatened taxa. Further analysis across the entire MSB Partnership is required to underpin future collection activities and maximize the usefulness of collections.
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