Temperature drives the evolutionary diversification of male harm in Drosophila melanogaster flies

Londoño-Nieto, Claudia 1 ; Butler-Margalef, Michael1 ; Garcia-Roa, Roberto 2 ; Carazo, Pau1

Published Feb 20, 2025 on Dryad. https://doi.org/10.5061/dryad.7sqv9s51x

Data files

Feb 20, 2025 version files 1.85 MB

DataBase_EEL_Londoño-Nieto_et_al_2024.xlsx

1.84 MB
README.md

13.29 KB

Abstract

Sexual selection often leads to sexual conflict via pre-copulatory (harassment) and/or copulatory (traumatic insemination) male harm to females, impacting population growth, adaptation and evolutionary rescue. Male harm mechanisms are diverse and taxonomically widespread, but we largely ignore what ecological factors modulate their diversification. Here, we conducted experimental evolution under low- (20±4ºC), moderate- (24±4ºC) and high-temperature (28±4ºC) regimes in Drosophila melanogaster, a species with male harm via harassment and seminal fluid proteins (SFPs), to show that temperature drives the divergent evolution of sexual conflict. At the low-temperature regime, evolution resulted in reduced and less plastic harassment (i.e. pre-copulatory harm) while, at the high-temperature regime, it was characterized by responses in the seminal proteome driven by differential expression of SFPs. Our results suggest that temperature can be key to understand the past diversification and future (global warming) evolution of sexual conflict, and the maintenance of genetic variation in male harm traits.

https://doi.org/10.5061/dryad.7sqv9s51x

Description of the data and file structure

Files and variables

File: DataBase_EEL_Londoño-Nieto_et_al_2024.xlsx

Description: This data file is used for analyses of: Reproductive success, survival, behavioural, PCA and proteomics analyses

Variables

"EEL" informs of average temperature of experimental evolution regime (20, 24, or 28ºC).

"Replica" informs of replica of experimental evolution treatment (A to L)
"Temp" informs of temperature treatments (20, 24 or 28°C)
"M_system" informs of mating system tratments (Monogamy or Polyandry).
"Adaptive_temp" informs if temperature treatment was part of the thermal regime of experimental evolution (Yes/No).
"Lifespan" is the absolute lifetime of each focal female with a maximun of 47,5 days.
"Event" informs if the data of "Lifespan" is right censored ("0") or not ("1"). "right censored" individuals are individuals that are taken into account for demographic analysis until the day they disappear. We included the females lost during manipulations as a "right censored" and also those who have not died at the end of the experiment (47.5 days).
"Courtship_rate" is the number of courtships experienced by each focal female per hour.
"Aggression_rate" is the number of male-male agressionss per hour.
"Rejections_rate" is the number of female rejections per hour.
"C" is the total number of courtships experienced by each focal female.
"R" is the total number of female rejections.
"C.R" is the number of rejections per courtship experienced by each focal female. Rejection rate per courtship was only calculated 30% of the observation time (when courtship rate was different from 0).
"Comp.1" informs the scores of the component 1 from the PCA
"Comp.2" informs the scores of the component 1 from the PCA
"Comp.3" informs the scores of the component 1 from the PCA
"Isoline" Informs of the isoline number of each individual focal fly.
"Proportionwt" is the reproductive success of focal males as the proportion of sired offspring vs. offspring sired by rival males.
"Peak Name" Informs of the name of each protein identified.
"Sfps_Uniprotlist" Informs if identified protein has been described as seminal fluid proteins (SFPs), based on a high-confidence SFPs reference list from Sepil et al 2019 and Wigby et al 2020.

"20°A1C" informs of proteins abundances of virgin males treated at 20º, from the experimental evolution replica A and biological replica 1
"20°A1T" informs of proteins abundances of mated males treated at 20º, from the experimental evolution replica A and biological replica 1
"20°B1C" informs of proteins abundances of virgin males treated at 20º, from the experimental evolution replica B and biological replica 1
"20°B1T" informs of proteins abundances of mated males treated at 20º, from the experimental evolution replica B and biological replica 1
"20°C1C" informs of proteins abundances of virgin males treated at 20º, from the experimental evolution replica C and biological replica 1
"20°C1T" informs of proteins abundances of mated males treated at 20º, from the experimental evolution replica C and biological replica 1
"20°D1C" informs of proteins abundances of virgin males treated at 20º, from the experimental evolution replica D and biological replica 1
"20°D1T" informs of proteins abundances of mated males treated at 20º, from the experimental evolution replica D and biological replica 1
"20°A2C" informs of proteins abundances of virgin males treated at 20º, from the experimental evolution replica A and biological replica 2
"20°A2T" informs of proteins abundances of mated males treated at 20º, from the experimental evolution replica A and biological replica 2
"20°B2C" informs of proteins abundances of virgin males treated at 20º, from the experimental evolution replica B and biological replica 2
"20°B2T" informs of proteins abundances of mated males treated at 20º, from the experimental evolution replica B and biological replica 2
"20°C2C" informs of proteins abundances of virgin males treated at 20º, from the experimental evolution replica C and biological replica 2
"20°C2T" informs of proteins abundances of mated males treated at 20º, from the experimental evolution replica C and biological replica 2
"20°D2C" informs of proteins abundances of virgin males treated at 20º, from the experimental evolution replica D and biological replica 2
"20°D2T" informs of proteins abundances of mated males treated at 20º, from the experimental evolution replica D and biological replica 2
"20°A3C" informs of proteins abundances of virgin males treated at 20º, from the experimental evolution replica A and biological replica 3
"20°A3T" informs of proteins abundances of mated males treated at 20º, from the experimental evolution replica A and biological replica 3
"20°B3C" informs of proteins abundances of virgin males treated at 20º, from the experimental evolution replica B and biological replica 3
"20°B3T" informs of proteins abundances of mated males treated at 20º, from the experimental evolution replica B and biological replica 3
"20°C3C" informs of proteins abundances of virgin males treated at 20º, from the experimental evolution replica C and biological replica 3
"20°C3T" informs of proteins abundances of mated males treated at 20º, from the experimental evolution replica C and biological replica 3
"20°D3C" informs of proteins abundances of virgin males treated at 20º, from the experimental evolution replica D and biological replica 3
"20°D3T" informs of proteins abundances of mated males treated at 20º, from the experimental evolution replica D and biological replica 3
"24°E1C" informs of proteins abundances of virgin males treated at 24º, from the experimental evolution replica E and biological replica 1
"24°E1T" informs of proteins abundances of mated males treated at 24º, from the experimental evolution replica E and biological replica 1
"24°F1C" informs of proteins abundances of virgin males treated at 24º, from the experimental evolution replica F and biological replica 1
"24°F1T" informs of proteins abundances of mated males treated at 24º, from the experimental evolution replica F and biological replica 1
"24°G1C" informs of proteins abundances of virgin males treated at 24º, from the experimental evolution replica G and biological replica 1
"24°G1T" informs of proteins abundances of mated males treated at 24º, from the experimental evolution replica G and biological replica 1
"24°H1C" informs of proteins abundances of virgin males treated at 24º, from the experimental evolution replica H and biological replica 1
"24°H1T" informs of proteins abundances of mated males treated at 24º, from the experimental evolution replica H and biological replica 1
"24°E2C" informs of proteins abundances of virgin males treated at 24º, from the experimental evolution replica E and biological replica 2
"24°E2T" informs of proteins abundances of mated males treated at 24º, from the experimental evolution replica E and biological replica 2
"24°F2C" informs of proteins abundances of virgin males treated at 24º, from the experimental evolution replica F and biological replica 2
"24°F2T" informs of proteins abundances of mated males treated at 24º, from the experimental evolution replica F and biological replica 2
"24°G2C" informs of proteins abundances of virgin males treated at 24º, from the experimental evolution replica G and biological replica 2
"24°G2T" informs of proteins abundances of mated males treated at 24º, from the experimental evolution replica G and biological replica 2
"24°H2C" informs of proteins abundances of virgin males treated at 24º, from the experimental evolution replica H and biological replica 2
"24°H2T" informs of proteins abundances of mated males treated at 24º, from the experimental evolution replica H and biological replica 2
"24°E3C" informs of proteins abundances of virgin males treated at 24º, from the experimental evolution replica E and biological replica 3
"24°E3T" informs of proteins abundances of mated males treated at 24º, from the experimental evolution replica E and biological replica 3
"24°F3C" informs of proteins abundances of virgin males treated at 24º, from the experimental evolution replica F and biological replica 3
"24°F3T" informs of proteins abundances of mated males treated at 24º, from the experimental evolution replica F and biological replica 3
"24°G3C" informs of proteins abundances of virgin males treated at 24º, from the experimental evolution replica G and biological replica 3
"24°G3T" informs of proteins abundances of mated males treated at 24º, from the experimental evolution replica G and biological replica 3
"24°H3C" informs of proteins abundances of virgin males treated at 24º, from the experimental evolution replica H and biological replica 3
"24°H3T" informs of proteins abundances of mated males treated at 24º, from the experimental evolution replica H and biological replica 3
"28°I1C" informs of proteins abundances of virgin males treated at 28º, from the experimental evolution replica I and biological replica 1
"28°I1T" informs of proteins abundances of mated males treated at 28º, from the experimental evolution replica I and biological replica 1
"28°J1C" informs of proteins abundances of virgin males treated at 28º, from the experimental evolution replica J and biological replica 1
"28°J1T" informs of proteins abundances of mated males treated at 28º, from the experimental evolution replica J and biological replica 1
"28°K1C" informs of proteins abundances of virgin males treated at 28º, from the experimental evolution replica K and biological replica 1
"28°K1T" informs of proteins abundances of mated males treated at 28º, from the experimental evolution replica K and biological replica 1
"28°L1C" informs of proteins abundances of virgin males treated at 248, from the experimental evolution replica L and biological replica 1
"28°L1T" informs of proteins abundances of mated males treated at 28º, from the experimental evolution replica L and biological replica 1
"28°I2C" informs of proteins abundances of virgin males treated at 28º, from the experimental evolution replica I and biological replica 2
"28°I2T" informs of proteins abundances of mated males treated at 28º, from the experimental evolution replica I and biological replica 2
"28°J2C" informs of proteins abundances of virgin males treated at 28º, from the experimental evolution replica J and biological replica 2
"28°J2T" informs of proteins abundances of mated males treated at 28º, from the experimental evolution replica J and biological replica 2
"28°K2C" informs of proteins abundances of virgin males treated at 28º, from the experimental evolution replica K and biological replica 2
"28°K2T" informs of proteins abundances of mated males treated at 28º, from the experimental evolution replica K and biological replica 2
"28°L2C" informs of proteins abundances of virgin males treated at 28º, from the experimental evolution replica L and biological replica 2
"28°L2T" informs of proteins abundances of mated males treated at 28º, from the experimental evolution replica L and biological replica 2
"28°I3C" informs of proteins abundances of virgin males treated at 28º, from the experimental evolution replica I and biological replica 3
"28°I3T" informs of proteins abundances of mated males treated at 28º, from the experimental evolution replica I and biological replica 3
"28°J3C" informs of proteins abundances of virgin males treated at 28º, from the experimental evolution replica J and biological replica 3
"28°J3T" informs of proteins abundances of mated males treated at 28º, from the experimental evolution replica J and biological replica 3
"28°K3C" informs of proteins abundances of virgin males treated at 28º, from the experimental evolution replica K and biological replica 3
"28°K3T" informs of proteins abundances of mated males treated at 28º, from the experimental evolution replica K and biological replica 3
"28°L3C" informs of proteins abundances of virgin males treated at 28º, from the experimental evolution replica L and biological replica 3
"28°L3T" informs of proteins abundances of mated males treated at 28º, from the experimental evolution replica L and biological replica 3

Code/software

All analyses were performed usign RStudio (version 4.2.2)