TY - JOUR
T1 - An endocrine-disrupting agricultural contaminant impacts sequential female mate choice in fish
AU - Tomkins, P
AU - Saaristo, Minna
AU - Bertram, MG
AU - Michelangeli, M
AU - Tomkins, RB
AU - BBM, Wong
PY - 2018
Y1 - 2018
N2 - The environmental impact of endocrine-disrupting chemicals (EDCs)-compounds that interfere with endocrine system function at minute concentrations-is now well established. In recent years, concern has been mounting over a group of endocrine disruptors known as hormonal growth promotants (HGPs), which are natural and synthetic chemicals used to promote growth in livestock by targeting the endocrine system. One of the most potent compounds to enter the environment as a result of HGP use is 17 beta-trenbolone, which has repeatedly been detected in aquatic habitats. Although recent research has revealed that 17 beta-trenbolone can interfere with mechanisms of sexual selection, its potential to impact sequential female mate choice remains unknown, as is true for all EDCs. To address this, we exposed female guppies (Poecilia reticulata) to 17 beta-trenbolone at an environmentally relevant level (average measured concentration: 2 ng/L) for 21 days using a flow-through system. We then compared the response of unexposed and exposed females to sequentially presented stimulus (i.e., unexposed) males that varied in their relative body area of orange pigmentation, as female guppies have a known preference for orange colouration in males. We found that, regardless of male orange pigmentation, both unexposed and exposed females associated with males indiscriminately during their first male encounter. However, during the second male presentation, unexposed females significantly reduced the amount of time they spent associating with low-orange males if they had previously encountered a high orange male. Conversely, 17 beta-trenbolone-exposed females associated with males indiscriminately (i.e., regardless of orange colouration) during both their first and second male encounter, and, overall, associated with males significantly less than did unexposed females during both presentations. This is the first study to demonstrate altered sequential female mate choice resulting from exposure to an endocrine disruptor, highlighting the need for a greater understanding of how EDCs may impact complex mechanisms of sexual selection.
AB - The environmental impact of endocrine-disrupting chemicals (EDCs)-compounds that interfere with endocrine system function at minute concentrations-is now well established. In recent years, concern has been mounting over a group of endocrine disruptors known as hormonal growth promotants (HGPs), which are natural and synthetic chemicals used to promote growth in livestock by targeting the endocrine system. One of the most potent compounds to enter the environment as a result of HGP use is 17 beta-trenbolone, which has repeatedly been detected in aquatic habitats. Although recent research has revealed that 17 beta-trenbolone can interfere with mechanisms of sexual selection, its potential to impact sequential female mate choice remains unknown, as is true for all EDCs. To address this, we exposed female guppies (Poecilia reticulata) to 17 beta-trenbolone at an environmentally relevant level (average measured concentration: 2 ng/L) for 21 days using a flow-through system. We then compared the response of unexposed and exposed females to sequentially presented stimulus (i.e., unexposed) males that varied in their relative body area of orange pigmentation, as female guppies have a known preference for orange colouration in males. We found that, regardless of male orange pigmentation, both unexposed and exposed females associated with males indiscriminately during their first male encounter. However, during the second male presentation, unexposed females significantly reduced the amount of time they spent associating with low-orange males if they had previously encountered a high orange male. Conversely, 17 beta-trenbolone-exposed females associated with males indiscriminately (i.e., regardless of orange colouration) during both their first and second male encounter, and, overall, associated with males significantly less than did unexposed females during both presentations. This is the first study to demonstrate altered sequential female mate choice resulting from exposure to an endocrine disruptor, highlighting the need for a greater understanding of how EDCs may impact complex mechanisms of sexual selection.
KW - Sequential mate choice
KW - Poecilia reticulata
KW - Endocrine-disrupting chemical
KW - agricultural pollution
KW - trenbolone
KW - Sequential mate choice
KW - Poecilia reticulata
KW - Endocrine-disrupting chemical
KW - agricultural pollution
KW - trenbolone
KW - Sequential mate choice
KW - Poecilia reticulata
KW - Endocrine-disrupting chemical
KW - agricultural pollution
KW - trenbolone
U2 - 10.1016/j.envpol.2018.02.046
DO - 10.1016/j.envpol.2018.02.046
M3 - Artikel
SN - 0269-7491
VL - 237
SP - 103
EP - 110
JO - Environmental Pollution
JF - Environmental Pollution
ER -