Parasitoids (Hymenoptera: Braconidae) of fruit flies (Diptera: Tephritidae) in the State of São Paulo, Brazil: associated plants and parasitism

Foram coletados 3.008 braconídeos em larvas/pupas de moscas-das-frutas em 26 espécies de frutos, distribuídos em 33 municípios paulistas. A maioria dos braconídeos pertencia a Opiinae (96,2%), representada por quatro espécies - Doryctobracon areolatus (Szépligeti), Doryctobracon brasiliensis (Szépligeti), Opius bellus (Gahan) e Utetes anastrephae (Viereck) - e os demais a Alysiinae (3,8%), representada apenas por Asobara anastrephae (Muesebeck). Doryctobracon areolatus foi atraída por mais frutos hospedeiros de moscas-das-frutas (26) e ocorreu na maioria dos municípios amostrados, totalizando 77,5% dos parasitóides coletados. Doryctobracon areolatus foi associada com Anastrepha fraterculus (Wied.), A. obliqua (Macquart), A. amita Zucchi e, pela primeira vez, em frutos de wampi (Clausena lansium) e em canela-batalha (Cryptocarya aschersoniana). Doryctobracon brasiliensis foi associada apenas com A. fraterculus e registrada, pela primeira vez, em larvas em ameixa-japonesa (Prunus salicina). Não foi possível associar as demais espécies de parasitóides às espécies de moscas-das-frutas. Opius bellus foi obtida de larvas em canela-batalha. A percentagem de parasitismo natural variou de <1% a 40%.A total of 3,008 braconid parasitoids in 26 species of fruit fly host plants were collected in 33 localities of São Paulo State. The majority of the braconids (96.2%) belonged to four Opiinae species, Doryctobracon areolatus (Szépligeti), Doryctobracon brasiliensis (Szépligeti), Opius bellus (Gahan) and Utetes anastrephae (Viereck), and the remaining 3.8%, a single species of Alysiinae, Asobara anastrephae (Muesebeck). Doryctobracon areolatus was collected on Anastrepha fraterculus (Wied), A. obliqua (Macquart) and A. amita Zucchi, and was found associated with the largest number of fruit fly host plant species (26), being recorded for the first time in fruits of Clausena lansium and Cryptocarya aschersoniana. This species was the most common, occurring in most of the sampled localities, totaling 77.5% of all parasitoids collected. Doryctobracon brasiliensis was associated only with A. fraterculus and recorded, for the first time, in Japanese plum (Prunus salicina). It was not possible to associate the remaining braconids to the fruit fly species. Opius bellus was also reared from larvae in C. aschersoniana. The natural parasitism percentage ranged from < 1% to 40%

Novos registros de moscas-das-frutas (Diptera: Tephritidae), hospedeiros silvestres e parasitóides (Hymenoptera: Braconidae) na Amazônia brasileira

Anastrepha anomala Stone was obtained from Parahancornia amapa (Huber) Ducke (Apocynaceae) fruits, and Anastrepha hastata Stone from Cheiloclinium cognatum (Miers.) (Hippocrateaceae) in the State of Amapá, Brazil. Two braconids, Doryctobracon sp. and Opius bellus Gahan, were reared from the latter fruit fly species. This is the first record of P. amapa as a fruit fly host. C. cognatum is the first host known to A. hastata. Both braconids are also the first records of parasitoids for this species.Anastrepha anomala Stone foi obtida de frutos de Parahancornia amapa (Huber) Ducke (Apocynaceae) e Anastrepha hastata Stone de Cheiloclinium cognatum (Miers.) (Hippocrateaceae) no Amapá, sendo obtidos dois braconídeos, Doryctobracon sp. e Opius bellus Gahan, dessa espécie. Este é o primeiro registro de P. amapa como hospedeiro de moscas-das-frutas. C. cognatum é o primeiro hospedeiro conhecido de A. hastata e os braconídeos são também os primeiros registros de parasitóides dessa espécie.Agência de Desenvolvimento da Amazônia and Secretaria de Estado da Ciência e Tecnologia do Amap

Survey of Third-Party Parenting Options Associated With Fertility Preservation Available to Patients With Cancer Around the Globe

Purpose: In the accompanying article, “Analysis of Fertility Preservation Options Available to Patients With Cancer Around the Globe,” we showed that specific fertility preservation services may not be offered at various sites around the world because of cultural and legal barriers. We assessed global and regional experiences as well as the legal status of third-party reproduction and adoption to serve as a comprehensive international data set and resource for groups that wish to begin oncofertility interventions. Methods: We provide data on the legalities of third-party assisted reproductive technologies and other family-building options in the 28 oncofertility-practicing countries surveyed. Results: We found regional and country differences that will be important in the development of tailored resources for physicians and for patient brochures that are sensitive to these local restrictions and cultural norms. Conclusion: Because many patients first consult Web-based materials, the formal assessment of the availability of these options provides members of the global oncofertility community with data to which they might otherwise not have ready access to better serve their patients

Doryctobracon adaimei Marinho & Penteado-Dias 2017

&lt;i&gt;Doryctobracon adaimei&lt;/i&gt; Marinho &amp; Penteado-Dias, 2017 &lt;p&gt;(Figure 1D)&lt;/p&gt; &lt;p&gt; &lt;b&gt;Diagnosis&lt;/b&gt;. Fore wing infumate, with a broad rounded hyaline spot from stigma to middle of R1a but not reaching the posterior margin, stigma dark brown, propodeum areolate (details in Marinho &lt;i&gt;et al&lt;/i&gt;. 2017).&lt;/p&gt; &lt;p&gt; &lt;b&gt;Comments&lt;/b&gt;. It is close to &lt;i&gt;D. areolatus&lt;/i&gt; and &lt;i&gt;D. whartoni&lt;/i&gt; but is differentiated from both by morphometric and molecular data (Marinho &lt;i&gt;et al.&lt;/i&gt; 2017), and also by wing color (see key). &lt;i&gt;Doryctobracon adaimei&lt;/i&gt; occurs in the states of Amap&aacute; (Deus &lt;i&gt;et al.&lt;/i&gt; 2010; Silva &lt;i&gt;et al.&lt;/i&gt; 2011; Adaime &lt;i&gt;et al.&lt;/i&gt; 2018), Amazonas (Dutra &lt;i&gt;et al.&lt;/i&gt; 2013), Goi&aacute;s (Veloso &lt;i&gt;et al.&lt;/i&gt; 1996; Braga-Filho &lt;i&gt;et al.&lt;/i&gt; 2001), Roraima (Amorim 2003; Ronchi-Teles 2008; Marsaro Junior &lt;i&gt;et al&lt;/i&gt;. 2008; 2009; 2010) and Tocantins (Bomfim &lt;i&gt;et al.&lt;/i&gt; 2007), parasitizing larvae of &lt;i&gt;Anastrepha coronilli&lt;/i&gt; Carrejo &amp; Gonz&aacute;lez, &lt;i&gt;A. atrigona&lt;/i&gt; Hendel, &lt;i&gt;A. fraterculus&lt;/i&gt; (Wiedemann) and &lt;i&gt;A. striata&lt;/i&gt; Schiner. For a long time, &lt;i&gt;D. adaimei&lt;/i&gt; was referred in the Brazilian literature as &lt;i&gt;Doryctobracon&lt;/i&gt; sp. 2 (Marinho &lt;i&gt;et al.&lt;/i&gt; 2017).&lt;/p&gt;Published as part of &lt;i&gt;Marinho, Cláudia F., Costa, Valmir A. &amp; Zucchi, Roberto A., 2018, Annotated checklist and illustrated key to braconid parasitoids (Hymenoptera, Braconidae) of economically important fruit flies (Diptera, Tephritidae) in Brazil, pp. 21-36 in Zootaxa 4527 (1)&lt;/i&gt; on page 24, DOI: 10.11646/zootaxa.4527.1.2, &lt;a href="http://zenodo.org/record/2611944"&gt;http://zenodo.org/record/2611944&lt;/a&gt

Opius bellus Gahan 1930

&lt;i&gt;Opius bellus&lt;/i&gt; Gahan, 1930 &lt;p&gt;(Figure 2E)&lt;/p&gt; &lt;p&gt; &lt;b&gt;Diagnosis&lt;/b&gt;. Occipital carina absent, labrum concealed by clypeus when mandibles closed, notauli and midpit absent, propodeum with strong median carina, hind tibia with no basal carina, apex and base of posterior tibiae black or yellow, wings infumate, stigma broad, fore wing with (RS+M)b present, 2 nd submarginal cell long 4-sided, hind wing with m-cu absent.&lt;/p&gt; &lt;p&gt; &lt;b&gt;Comments&lt;/b&gt;. &lt;i&gt;Opius bellus&lt;/i&gt; belongs to the subgenus &lt;i&gt;Bellopius&lt;/i&gt; Wharton, which is constituted of Neotropical species associated with tephritids, and it is characterized by the absence of the occipital carina and notauli (Wharton 1997). &lt;i&gt;Opius bellus&lt;/i&gt; has dark-brown tibiae. In Brazil, some specimens have dark-brown tibiae and others have yellowish tibiae. These specimens were considered as &lt;i&gt;Opius&lt;/i&gt; sp. aff. &lt;i&gt;bellus&lt;/i&gt; for about two decades. However, based on geometric morphometry and molecular analyses, it was concluded that specimens with yellowish tibiae actually belong to &lt;i&gt;O. bellus&lt;/i&gt; as well (Marinho &lt;i&gt;et al&lt;/i&gt;. 2014). &lt;i&gt;Opius bellus&lt;/i&gt; is quite common in several fruit-fly surveys, recorded in 22 Brazilian states, and is predominant in the state Amazonas (Canal &lt;i&gt;et al.&lt;/i&gt; 1994, 1995) and Piau&iacute; (Ara&uacute;jo &lt;i&gt;et al.&lt;/i&gt; 2014, Vilanova &lt;i&gt;et al.&lt;/i&gt; 2016, Souza &lt;i&gt;et al&lt;/i&gt;. 2017). It parasitizes 19 species of &lt;i&gt;Anastrepha&lt;/i&gt;, including some of economic importance, and &lt;i&gt;C. capitata&lt;/i&gt; (see Zucchi &amp; Moraes 2008; 2012).&lt;/p&gt;Published as part of &lt;i&gt;Marinho, Cláudia F., Costa, Valmir A. &amp; Zucchi, Roberto A., 2018, Annotated checklist and illustrated key to braconid parasitoids (Hymenoptera, Braconidae) of economically important fruit flies (Diptera, Tephritidae) in Brazil, pp. 21-36 in Zootaxa 4527 (1)&lt;/i&gt; on page 27, DOI: 10.11646/zootaxa.4527.1.2, &lt;a href="http://zenodo.org/record/2611944"&gt;http://zenodo.org/record/2611944&lt;/a&gt