Conservation planning for adaptive and neutral evolutionary processes

Protected area systems should ideally maintain adaptive and neutral evolutionary processes. To achieve this, plans for expanding protected area systems (prioritizations) can improve coverage of related attributes (evolutionary attributes). However, long-standing challenges in mapping and operationalizing evolutionary attributes have prevented their widespread usage. We outline a novel framework for incorporating evolutionary processes into conservation planning. Using three amphibian species in the Iberian Peninsula (Hyla molleri, Pelobates cultripes and Rana iberica), we mapped a comprehensive range of adaptive and neutral evolutionary attributes to delineate places containing individuals with moderate to high heterozygosity, different neutral genetic clusters, different adaptive genetic clusters and climatic refugia. We overlaid these maps with boundaries of existing protected areas to quantify representation shortfalls and generated a prioritization to identify additional priority areas. To assess the performance of conventional approaches, we also generated a prioritization using only the species' distribution data—without the evolutionary attributes. We found that existing protected areas within the Iberian Peninsula are failing to adequately represent evolutionary attributes for the study species. Specifically, they are not adequately representing places predicted to contain individuals with moderate to high heterozygosity for any of the studied species, and neither are they adequately representing the species' potential climatic refugia. They also have poor coverage of the distinct adaptive and neutral genetic clusters that comprise each of the species' distributions. By incorporating the evolutionary attributes into the prioritization process, we identified priority areas that would address all of the shortfalls for only a minor increase in the size of the protected area system. In comparison, the prioritization generated following conventional approaches, despite encompassing a similar extent, did not substantially improve representation of the species' evolutionary attributes. Synthesis and applications. We introduce a framework for incorporating adaptive and neutral evolutionary processes into conservation planning. This framework can reveal weaknesses in the coverage of climatic refugia, genetic diversity and potential local adaptations by existing protected areas. Moreover, it can identify priority areas to improve conservation of evolutionary processes. Since neglecting evolutionary processes can impair conservation plans, we recommend using evolutionary data to inform decision-making where possible.This work was developed under the project PTDC/BIA-BIC/3545/2014, supported by Norte Portugal Regional Operational Programme (NORTE 2020), under the PORTUGAL 2020 Partnership Agreement, through the European Regional Development Fund (ERDF). Support by Portuguese National funds through Fundação para a Ciência e Tecnologia (FCT) was granted to AV (DL57/2016) and SBC (individual scientific employment program-contract CEECIND/01464/2017). GVA was supported by Investigador FCT contract (IF/01425/2014)

Ethylene Responses and ACC oxidase Gene Expression in Lippia alba (Verbenaceae) Chemotypes with Varying Ploidy Levels

Lippia alba (Mill.) N. E. Br ex Britton & P. Wilson is a species of great economic importance due to the medicinal activity conferred by its essential oils. Ethylene (ET) is a gaseous hormone that affects several processes in plant growth and development. This hormone is synthesized through a reaction in which 1-aminocyclopropane-1-carboxylic acid (ACC) is converted to ET by the action of the enzyme ACC oxidase (ACO). The ET activity in three L. alba chemotypes (BGEN-01, triploid; BGEN-02, diploid; and BGEN-42, hexaploid) was evaluated by culturing plants in vitro in the presence of the ET precursor (ACC), scavenger mercury perchloride (MP), the inhibitors aminoethoxyvinylglycine (AVG) and silver thiosulfate (STS), and a CO2-enriched atmosphere. Leaf abscission rate, ET accumulation, and ACO gene expression (LaACO) were investigated. Leaf abscission was higher in BGEN-42, regardless of the precursor/inhibitor. ACC had the highest ET accumulation in BGEN-02 and BGEN-01, whereas BGEN-42 presented lower ET accumulation than the control. MP and AVG were effective in preventing ET production when compared to the control. LaACO was upregulated in BGEN-01 and BGEN-42 treated with ACC and in BGEN-01 treated with STS. In the CO2 enrichment experiments, LaACO expression was higher in BGEN-42 in the treatments without forced ventilation. Thus, the expression of this gene in L. alba can be altered by elevating CO2 levels and also by the addition of ACC. This is the first report of ET interactions in L. alba cultured in vitro