Abstract
Understanding the causes of variation in paternity is an important goal of research in sexual selection. While much progress has been made in understanding the dynamics of pre-copulatory mate choice and competition, post-copulatory processes that affect paternity are much less well understood. Distinguishing cryptic female choice (CFC, biases in paternity due to female post-copulatory preferences) from sperm competition (SC, competition among ejaculates for fertilization) and particularly from sexual antagonistic coevolution (SAC, intersexual conflict over mating frequency or fertilization) is at best challenging, and at worst, may be impossible. One way forward is to identify taxa in which comparative approaches, field studies, and detailed mechanistic study are all tractable, as these may allow the design of critical tests of distinguishing predictions of these intertwined hypotheses at different levels of analysis. Here, we focus on the widow spiders , the approximately 30 species in the genus Latrodectus , as a promising group for future work on CFC. Latrodectus spiders are distributed worldwide and show a fascinating range of mating systems set in variable ecological and social contexts. We outline how some of the aspects of Latrodectus natural history and biology may favor CFC rather than (or in addition to) pre-copulatory choice. Moreover, inter- and intraspecific variation in the benefits of CFC may provide the opportunity for comparative and intraspecific studies. We then identify likely mechanisms of CFC in this genus and end by providing suggestive evidence for CFC in a few of the species that have been studied in detail. Although there is no evidence for sperm selection in the Latrodectus to date, female behavior can lead to biases in paternity via changes in copulation frequency, duration, and remating as a function of male courtship effort . In addition, although first-male sperm precedence mediated by the deposit of sperm plugs is common in this genus, females may be able to manipulate the success of this internal plug and retain the ability to cede paternity to later mates. Since relatively few Latrodectus species have been studied in detail, this discussion is necessarily suggestive, rather than conclusive. Nevertheless, the available data suggest increased focus on this genus may prove productive for examining causes and consequences of CFC.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
References
Abalos JW, Baez EC (1963) On spermatic transmission in spiders. Psyche 70:197–207
Aisenberg A, Barrantes G, Eberhard W (2015) Hairy kisses: tactile cheliceral courtship affects female mating decisions in Leucauge mariana (Araneae, Tetragnathidae). Behav Ecol Sociobiol 69:313−325
Aisenberg A, Costa FG (2005) Females mated without sperm transfer maintain high sexual receptivity in the wolf spider Schizocosa malitiosa. Ethology 111(6):545–558
Anava A, Lubin Y (1993) Presence of gender cues in the web of a widow spider, Latrodectus revivensis, and a description of courtship behaviour. Bull Br Arachnol Soc 9:119–122
Andersson J, Borg-Karlson AK, Wiklund C (2004) Sexual conflict and anti-aphrodisiac titre in a polyandrous butterfly: male ejaculate tailoring and absence of female control. Proc R Soc Lond B Biol Sci 271(1550):1765−1770
Andersson M (1994) Sexual selection. Princeton University Press, Princeton, NJ
Andrade MC (1995) Sexual cannibalism in the redback spider (Latrodectus hasselti Thorell): Natural selection for female feeding and sexual selection for male sacrifice. MSc thesis, University of Toronto, Toronto
Andrade MC (1996) Sexual selection for male sacrifice in the Australian redback spider. Science 271:70–72
Andrade MC (2003) Risky mate search and male self-sacrifice in redback spiders. Behav Ecol 14(4):531–538
Andrade MC, Banta EM (2002) Value of male remating and functional sterility in redback spiders. Anim Behav 63(5):857–870
Andrade MC, Gu L, Stoltz JA (2005) Novel male trait prolongs survival in suicidal mating. Biol Lett 1(3):276–279
Andrade MC, Kasumovic MM (2005) Terminal investment strategies and male mate choice: extreme tests of Bateman. Integr Comp Biol 45(5):838–847
Arnqvist G, Rowe L (1995) Sexual conflict and arms races between the sexes: a morphological adaptation for control of mating in a female insect. Proc R Soc Lond 261:123–127
Arnqvist G, Rowe L (2002) Antagonistic coevolution between the sexes in a group of insects. Nature 415:787–789
Arnqvist G, Rowe L (2005) Sexual Conflict. Princeton University Press, Princeton
Austad S (1984) Evolution of sperm priority patterns in spiders. In: Smith R (ed) Sperm Competition and the evolution of animal mating systems. Academic Press, Toronto, pp 221–249
Berendonck B, Greven H (2002) Morphology of female and male genitalia of Latrodectus revivensis Shulov, 1948 (Araneae, Theridiidae) with regard to sperm priority patterns. In: Toft S, Scharff N (eds) European Arachnology 2000. Aarhus Univ Press, Aarhus C, pp 157–167
Berendonck B, Greven H (2005) Genital structures in the entelegyne widow spider Latrodectus revivensis (Arachnida; Araneae; Theridiidae) indicate a low ability for cryptic female choice by sperm manipulation. J Morphol 263(1):118–132
Bhatnagar RDS, Rempel JG (1962) The structure, function, and postembryonic development of the male and female copulatory organs of the black widow spider Latrodectus curacaviensis (Muller). Can J Zool 40:465–510
Biaggio MD (2007) Implications of subadult cohabitation for the mating system of redback spiders (Latrodectus hasselti). MSc thesis, University of Toronto Toronto
Birkhead TR (1998) Cryptic female choice: criteria for establishing female sperm choice. Evolution 52(4):1212–1218
Birkhead TR (2000) Defining and demonstrating postcopulatory female choice - again. Evolution 54(3):1057–1060
Bleu J, Bessa-Gomes C, Laloi D (2012) Evolution of female choosiness and mating frequency: effects of mating cost, density and sex ratio. Anim Behav 83(1):131–136
Boorman E, Parker GA (1976) Sperm (ejaculate) competition in Drosophila melanogaster, and the reproductive value of females to males in relation to female age and mating status. Ecol Entomol 1(3):145–155
Brandt Y, Andrade MC (2007) Testing the gravity hypothesis of sexual size dimorphism: are small males faster climbers? Functional Ecol 21(2):379–385
Breene RG, Sweet MH (1985) Evidence of insemination of multiple females by the male black widow spider, Latrodectus mactans (Araneae, Theridiidae). J Arachnol 13:331–335
Carrel JE (2001) Population dynamics of the red widow spider (Araneae : Theridiidae). Fla Ent 84(3):385–390
Chapman T, Liddle L, Kai J, Wolfner M, Patridge L (1995) Cost of mating in Drosophila melanogaster females is mediated by male accessory gland products. Nature 373:241–244
D’Amour FE, Becker FE, Riper WV (1936) The Black Widow Spider. Quarter Rev Biol 11(2):123–160
De Jong MCM, Sabelis MW (1991) Limits to runaway sexual selection: the wallflower paradox. J Evol Biol 4(4):637–656
De La Serna De Esteban CJ, Lauria L, Spinelli M (1987) Female genitalia of 3 species of the genus Latrodectus Araneae Theridiidae, Latrodectus antheratus, Latrodectus mirabilis and Latrodectus corallinus. Physis Sección C los Continentes y los Organismos Terrestres 45(108):31–37
De Luca PA, Stoltz JA, Andrade MCB, Mason AC (2015) Metabolic efficiency in courtship favors males with intermediate mass in the Australian redback spider, Latrodectus hasselti. J Ins Physiol 72(0):35–42
Downes MF (1987) Postembryonic development of Latrodectus hasselti Thorell (Araneae, Theridiidae). J Arachnol 14:293–301
Eberhard WG (1985) Sexual selection and animal genitalia. Harvard University Press, Cambridge
Eberhard WG (1996) Female Control: Sexual selection by cryptic female choice. Princeton University Press, Princeton, New Jersey
Eberhard WG (1993) Evaluating models of sexual selection: genitalia as a test case. Am Nat 142:564–571
Eberhard WG (1994) Evidence for widespread courtship during copulation in 131 species of insects and spiders, and implications for cryptic female choice. Evolution 48:711–733
Eberhard WG (2000) Criteria for demonstrating postcopulatory female choice. Evolution 54(3):1047–1050
Eberhard WG (2004) Why study spider sex: special traits of spiders facilitate studies of sperm competition and cryptic female choice. J Arachnol 32(3):545–556
Eberhard WG, Huber BA (2010) Spider genitalia: precise maneuvers with a numb structure in a complex lock. In: Leonard J, Cordoba-Aguilar A (eds) The evolution of primary sexual characters in animals. Oxford, New York, pp 249–284
Elias DO, Andrade MC, Kasumovic MM (2011) Dynamic population structure and the evolution of spider mating systems. Adv Ins Physiol 41:65
Estévez AL, González A (1991) Vital statistics of Steatoda retorta Gonzalez 1987, and comparative analysis with those of Latrodectus mirabilis (Holmberg), Latrodectus antheratus (Badcock), Latrodectus corallinus Abalos, Latrodectus diaguita Carcavallo and Tidarren sisyphoides (Walckenaer) (Araneae, Theridiidae). Stud Neotrop Fauna Environ 26(2):75–81
Evans JP, Rosengrave P, Gasparini C, Gemmell NJ (2013) Delineating the roles of males and females in sperm competition. Proc R Soc Lond B Biol Sci 280:20132047
Foelix R (1982) Biology of Spiders. Harvard University Press, Cambridge
Foellmer MW, Fairbairn DJ (2005) Selection on male size, leg length and condition during mate search in a sexually highly dimorphic orb-weaving spider. Oecologia 142(4):653–662
Forster L (1992) The stereotyped behaviour of sexual cannibalism in Latrodectus hasselti Thorell (Araneae: Theridiidae), the Australian Redback spider. Aust J Zool 40:1–11
Forster L (1995) The behavioural ecology of Latrodectus hasselti (Thorell), the Australian redback spider (Araneae: Theridiidae): a review. Records of the Western Australia Museum Supplement No. 52:13–24
Garb JE, Gonzalez A, Gillespie RG (2004) The black widow spider genus Latrodectus (Araneae: Theridiidae): phylogeny, biogeography, and invasion history. Molec Phylogen Evol 31(3):1127–1142
Garb JE, Hayashi CY (2013) Molecular Evolution of alpha-Latrotoxin, the Exceptionally Potent Vertebrate Neurotoxin in Black Widow Spider Venom. Molec Biol Evol 30(5):999–1014
Garcia-Gonzalez F (2004) Infertile matings and sperm competition: the effect of “nonsperm representation” on intraspecific variation in sperm precedence patterns. Am Nat 164(4):457–472
Harari AR, Ziv M, Lubin Y (2009) Conflict or cooperation in the courtship display of the white widow spider, Latrodectus pallidus. J Arachnol 37(3):254–260
Harvey PH, Pagel MD (1991) The comparative method in evolutionary biology. Oxford University Press, Oxford
Hebets EA (2003) Subadult experience influences adult mate choice in an arthropod: exposed female wolf spiders prefer males of a familiar phenotype. Proc Natl Acad Sci USA 100(23):13390–13395
Herberstein ME, Schneider JM, Uhl G, Michalik P (2011) Sperm dynamics in spiders. Behav Ecol 22(4):692–695
Heubel KU, Lindstrom K, Kokko H (2008) Females increase current reproductive effort when future access to males is uncertain. Biol Letters 4(2):224–227
Huber BA (1993) Genital mechanics and sexual selection in the spider Nesticus cellulanus (Araneae: Nesticidae). Can J Zool 71:2437–2447
Huber BA (2005) Sexual selection research on spiders: progress and biases. Biol Rev 80(3):363–385
Jelinek GA (1997) Widow spider envenomation (latrodectism): a worldwide problem. Wildern Environ Med 8 (4):226–231
Jennions MD, Petrie M (1997) Variation in mate choice and mating preferences: a review of causes and consequences. Biol Rev Cam Phil Soc 72(2):283–327
Jerhot E, Stoltz JA, Andrade MC, Schulz S (2010) Acylated serine derivatives: a unique class of arthropod pheromones of the Australian redback spider, Latrodectus hasselti. Angewandte Chemie International Edition 49(11):2037–2040
Johnson JC (2005) Cohabitation of juvenile females with mature males promotes sexual cannibalism in fishing spiders. Behav Ecol 16(1):269–273
Johnson JC, Trubl P, Blackmore V, Miles L (2011) Male black widows court well-fed females more than starved females: silken cues indicate sexual cannibalism risk. Anim Behav 82(2):383–390
Kaston BJ (1970) Comparative biology of American black widow spiders. San Diego Soc Nat Hist Trans 16:33–82
Kasumovic MM, Andrade MC (2004) Discrimination of airborne pheromones by mate-searching male western black widow spiders (Latrodectus hesperus): species-and population-specific responses. Can J Zool 82(7):1027–1034
Kasumovic MM, Andrade MC (2006) Male development tracks rapidly shifting sexual versus natural selection pressures. Curr Biol 16(7):R242–R243
Kasumovic MM, Andrade MC (2009) A change in competitive context reverses sexual selection on male size. J Evol Biol 22(2):324–333
Kasumovic MM, Brooks RC, Andrade MC (2009a) Body condition but not dietary restriction prolongs lifespan in a semelparous capital breeder. Biol Letters 5(5):636–638
Kasumovic MM, Bruce MJ, Herberstein ME, Andrade MC (2009b) Evidence for developmental plasticity in response to demographic variation in nature. Ecology 90(8):2287–2296
Kasumovic MM, Seebacher F (2013) The active metabolic rate predicts a male spider’s proximity to females and expected fitness. Biol Letters 9(2):20121164–20121164
Kavale J (1986) The comparative biology of two Latrodectus species. University of Otago, Zoology Dunedin
Knoflach B, van Harten A (2002) The genus Latrodectus (Araneae: Theridiidae) from mainland Yemen, the Socotra Archipelago and adjacent countries. Fauna of Arabia 19:321–362
Kokko H, Brooks R, Jennions MD, Morley J (2003) The evolution of mate choice and mating biases. Proc R Soc B-Biol Sci 270(1515):653–664
Kokko H, Jennions MD, Brooks R (2006) Unifying and testing models of sexual selection. Ann Rev Ecol Evol Syst 37(1):43−66
Kokko H, Mappes J (2005) Sexual selection when fertilization is not guaranteed. Evolution 59(9):1876–1885
Lauria de Cidre L (1988) El sistema genito feminina en dos especies del genero Latrodectus (Araneae, Theridiidae). Rev Brasil Biol 48:771–776
Levi H (1983) On the value of genitalic structures and coloration in separating species of widow spiders (Latrodectus sp.)(Araneae: Theridiidae). Verh Naturw Ver Hamburg (NF) 26:195–200
Levi HW (1959) The spider genus Latrodectus (Araneae: Theridiidae). Trans Am Microscop Soc 78:7–43
Levi HW (1961) Evolutionary trends in the development of palpal sclerites in the spider family Theridiidae. J Morph 108:1–10
Levi HW (1966) The three species of Latrodectus (Araneae), found in Israel. J Zool, Proc Zool Soc London 150:427–432
Levy G, Amitai P (1983) Revision of the widow-spider genus Latrodectus (Araneae, Theridiidae) in Israel. Zool J Linn Soc 77(1):39–63
Lubin Y, Ellner S, Kotzman M (1993) Web relocation and habitat selection in a desert widow spider. Ecology 74(7):1915–1928
MacLeod EC (2013) New insights in the evolutionary maintenance of male mate choice behaviour using the western black widow, Latrodectus hesperus PhD thesis, University of Toronto, Toronto
MacLeod EC, Andrade MCB (2014) Strong, convergent male mate choice along two preference axes in field populations of black widow spiders. Anim Behav 89:163–169
McCrone JD, Levi HW (1964) North American widow spiders of the Latrodectus curacaviensis group (Araneae: Theridiidae). Psyche 71:12–27
Michalik P, Ramírez MJ (2014) Evolutionary morphology of the male reproductive system, spermatozoa and seminal fluid of spiders (Araneae, Arachnida)—current knowledge and future directions. Arthropod Struct Dev 43(4):291–322
Modanu M, Michalik P, Andrade MC (2013) Mating system does not predict permanent sperm depletion in black widow spiders. Evol Develop 15(3):205–212
Moya-Laraño J, Halaj J, Wise DH (2002) Climbing to reach females: romeo should be small. Evolution 56(2):420–425
Mueller GH (1985) Abgebrochene Emboli in der Vulva der ‘Schwarzen Witwe’ Latrodectus geometricus C.L. Koch 1841 (Arachnida: Araneae: Theridiidae). Entomol Z 95:27–30
Neumann R, Schneider JM (2011) Frequent failure of male monopolization strategies as a cost of female choice in the black widow spider Latrodectus tredecimguttatus. Ethology 117(12):1057–1066
Parker GA (1990) Sperm competition games: raffles and roles. Proc R Soc Lond B 242:120–126
Parker GA (1970) Sperm Competition and its evolutionary consequences in the insects. Biol Rev 45:525–567
Perampaladas K, Stoltz JA, Andrade MCB (2008) Mated redback spider females re-advertise receptivity months after mating. Ethology 114(6):589–598
Pitcher TE, Neff BD, Rodd FH, Rowe L (2003) Multiple mating and sequential mate choice in guppies: females trade up. Proc R Soc B Biol Scien 270(1524):1623–1629
Ross K, Smith RL (1979a) Aspects of the courtship behavior of the black-widow spider, Latrodectus hesperus (Araneae, Theridiidae), with evidence for the existence of a contact sex-pheromone. J Arachnol 7(1):69–77
Ross K, Smith RL (1979b) Aspects of the courtship behaviour of the black widow spider, Latrodectus hesperus (Araneae: Theridiidae), with evidence for the existence of a contact sex pheromone. J Arachnol 7:69–77
Rugman-Jones PF, Eady PE (2001) The sterile male technique: a source of error in estimating levels of sperm precedence? Entomol Exp Appl 98(2):241–244
Salomon M (2011) The natural diet of a polyphagous predator, Latrodectus hesperus (Araneae: Theridiidae), over one year. J Arachnol 39(1):154–160
Salomon M, Vibert S, Bennett RG (2010) Habitat use by western black widow spiders (Latrodectus hesperus) in coastal British Columbia: evidence of facultative group living. Can J Zool 88(3):334–346
Schneider J, Andrade MC (2011) Mating behaviour and sexual selection. In: Herberstein ME (ed) Spider behaviour: flexibility and versatility. Cambridge University Press, Cambridge, pp 215–274
Schneider JM, Gilberg S, Fromhage L, Uhl G (2006) Sexual conflict over copulation duration in a cannibalistic spider. Anim Behav 71:781–788
Scott C, Vibert S, Gries G (2012) Evidence that web reduction by western black widow males functions in sexual communication. Can Ent 144(5):672–678
Segev O, Ziv M, Lubin Y (2003) The male mating system in a desert widow spider. J Arachnol 31(3):379–393
Segoli M, Arieli R, Sierwald P, Harari AR, Lubin Y (2008a) Sexual cannibalism in the brown widow spider (Latrodectus geometricus). Ethology 114(3):279–286
Segoli M, Harari AR, Lubin Y (2006) Limited mating opportunities and male monogamy: a field study of white widow spiders, Latrodectus pallidus (Theridiidae). Anim Behav 72:635–642
Segoli M, Lubin Y, Harari AR (2008b) Frequency and consequences of damage to male copulatory organs in a widow spider. J Arachnol 36(3):533–537
Sillen-Tullberg B (1981) Prolonged copulation: a male ‘postcopulatory’ strategy in a promiscuous species, Lygaeus equestris (Heteroptera: Lygaeidae). Behav Ecol Sociobiol 9:283–289
Simmons L, Siva-Jothy M (1998) Sperm competition in insects: mechanisms and the potential for selection. In: Birkhead T, Moller A (eds) Sperm competition and sexual selection. Academic Press, London, pp 341–434
Simmons LW (2001) Sperm competition and its evolutionary consequences in the insects. Princeton University Press, Princeton, N.J
Simó M, Dias MDD, Jorge C, Castro M, Dias MA, Laborda A (2013) Habitat, redescription and distribution of Latrodectus geometricus in Uruguay (Araneae: Theridiidae). Biota Neotropica 13(1):371–375
Siva-Jothy MT, Hooper RE (1996) Differential use of stored sperm during oviposition in the damselfly Calopteryx splendens xanthostoma (Charpentier). Behav Ecol Sociobiol 39(6):389–393
Smithers RHN (1944) Contribution to our knowledge of the genus Latrodectus (Araneae) in South Africa. Ann S African Mus 36:263–312
Snow LS, Abdel-Mesih A, Andrade MC (2006) Broken copulatory organs are low-cost adaptations to sperm competition in redback spiders. Ethology 112(4):379–389
Snow LS, Andrade MC (2004) Pattern of sperm transfer in redback spiders: implications for sperm competition and male sacrifice. Behav Ecol 15(5):785–792
Snow LSE, Andrade MCB (2005) Multiple sperm storage organs facilitate female control of paternity. Proc R Soc B Biol Scien 272(1568):1139–1144
Stoltz J, Elias D, Andrade MC (2009) Male courtship effort determines female response to competing rivals in redback spiders. Anim Behav 77(1):79–85
Stoltz JA, Andrade MCB (2010) Female’s courtship threshold allows intruding males to mate with reduced effort. Proc R Soc Lond B Biol Sci 277(1681):585–592
Stoltz JA, Andrade MCB, Kasumovic MM (2012) Developmental plasticity in metabolic rates reinforces morphological plasticity in response to social cues of sexual selection. J Insect Physiol 58(7):985–990
Stoltz JA, Elias DO, Andrade MC (2008) Females reward courtship by competing males in a cannibalistic spider. Behav Ecol Sociobiol 62(5):689–697
Stoltz JA, Hanna R, Andrade MCB (2010) Longevity cost of remaining unmated under dietary restriction. Function Ecol 24(6):1270–1280
Stoltz JA, McNeil JN, Andrade MC (2007) Males assess chemical signals to discriminate just-mated females from virgins in redback spiders. Anim Behav 74(6):1669–1674
Trubl P, Gburek T, Miles L, Johnson JC (2012) Black widow spiders in an urban desert: population variation in an arthropod pest across metropolitan Phoenix. AZ. Urban Ecosyst 15(3):599–609
Uhl G (2002) Female genital morphology andsperm priority patterns in spiders (Araneae). In: Toft S, Scharff N (eds) 19th european colloquium of arachnology aarhus, Denmark, 2000. Aarhus University Press, Aarhus, Denmark, pp 145–156
Uhl G, Nessler S, Schneider J (2010) Securing paternity in spiders? A review on occurrence and effects of mating plugs and male genital mutilation. Genetica 138(1):75–104
Useta G, Huber BA, Costa FG (2007) Spermathecal morphology and sperm dynamics in the female Schizocosa malitiosa (Araneae: Lycosidae). Euro J Entomol 104(4):777–785
Ushkaryov YA, Volynski KE, Ashton AC (2004) The multiple actions of black widow spider toxins and their selective use in neurosecretion studies. Toxicon 43(5):527–542
Vetter RS, Vincent LS, Danielsen DWR, Reinker KI, Clarke DE, Itnyre AA, Kabashima JN, Rust MK (2012) The prevalence of brown widow and black widow spiders (Araneae: Theridiidae) in Urban Southern California. J Med Entomol 49(4):947–951
Vocking O, Uhl G, Michalik P (2013) Sperm dynamics in spiders (Araneae): Ultrastructural analysis of the sperm activation process in the garden spider Argiope bruennichi (Scopoli, 1772). PLoS ONE 8(9). doi:10.1371/journal.pone.0072660
Watson PJ (1986) Transmission of female sex pheromone thwarted by males in the spider Linyphia litigiosa. Science 233:219–221
Welke K, Schneider JM (2009) Inbreeding avoidance through cryptic female choice in the cannibalistic Argiope lobata. Behav Ecol 20(5):1056–1062
Acknowledgments
We are grateful to the efforts, patience, and comments of A. Aisenberg, an anonymous reviewer, and Simon Ford, who created the illustration in Fig. 2.1. The Canada Research Chairs program (award to MCBA) provided financial support for ECM and MCBA during preparation of this manuscript.
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2015 Springer International Publishing Switzerland
About this chapter
Cite this chapter
Andrade, M.C.B., MacLeod, E.C. (2015). Potential for CFC in Black Widows (Genus Latrodectus): Mechanisms and Social Context. In: Peretti, A., Aisenberg, A. (eds) Cryptic Female Choice in Arthropods. Springer, Cham. https://doi.org/10.1007/978-3-319-17894-3_2
Download citation
DOI: https://doi.org/10.1007/978-3-319-17894-3_2
Published:
Publisher Name: Springer, Cham
Print ISBN: 978-3-319-17893-6
Online ISBN: 978-3-319-17894-3
eBook Packages: Biomedical and Life SciencesBiomedical and Life Sciences (R0)