【 摘 要 】

BackgroundBiparental inbreeding, mating between two relatives, occurs at a low frequency in many natural plant populations, which also often have substantial rates of self-fertilization. Although biparental inbreeding is likely to influence the dynamics of inbreeding depression and the evolution of selfing rates, it has received limited theoretical attention in comparison to selfing. The only previous model suggested that biparental inbreeding can favour the maintenance of stable intermediate selfing rates, but made unrealistic assumptions about the genetic basis of inbreeding depression. Here we extend a genetic model of inbreeding depression, describing nearly recessive lethal mutations at a very large number of loci, to incorporate sib-mating. We also include a constant component of inbreeding depression modelling the effects of mildly deleterious, nearly additive alleles. We analyze how observed rates of sib-mating influence the mean number of heterozygous lethals alleles and inbreeding depression in a population reproducing by a mixture of self-fertilization, sib-mating and outcrossing. We finally use the ensuing relationship between equilibrium inbreeding depression and population selfing rate to infer the evolutionarily stable selfing rates expected under such a mixed mating system.ResultsWe show that for a given rate of inbreeding, sib-mating is more efficient at purging inbreeding depression than selfing, because homozygosity of lethals increases more gradually through sib-mating than through selfing. Because sib-mating promotes the purging of inbreeding depression and the evolution of selfing, our genetic model of inbreeding depression also predicts that sib-mating is unlikely to maintain stable intermediate selfing rates.ConclusionsOur results imply that even low rates of sib-mating affect plant mating system evolution, by facilitating the evolution of selfing via more efficient purging of inbreeding depression. Alternative mechanisms, such as pollination ecology, are necessary to explain stable mixed selfing and outcrossing.

【 授权许可】

CC BY   
© Porcher and Lande. 2016

【 预 览 】

附件列表

Files	Size	Format	View
RO202311105202214ZK.pdf	1717KB	PDF	download
Fig. 2	3736KB	Image	download
Fig. 5	64KB	Image	download
Fig. 6	46KB	Image	download
MediaObjects/12888_2023_5209_MOESM2_ESM.docx	29KB	Other	download
MediaObjects/12888_2023_5209_MOESM3_ESM.zip	248KB	Package	download
MediaObjects/12888_2023_5173_MOESM2_ESM.pdf	163KB	PDF	download
MediaObjects/40560_2023_692_MOESM7_ESM.docx	20KB	Other	download
MediaObjects/12888_2023_5209_MOESM4_ESM.docx	57KB	Other	download
Fig. 3	3312KB	Image	download
MediaObjects/12888_2023_5209_MOESM5_ESM.docx	16KB	Other	download
MediaObjects/40560_2023_692_MOESM9_ESM.docx	14KB	Other	download
Fig. 3	323KB	Image	download
12936_2017_1885_Article_IEq1.gif	1KB	Image	download
Fig. 2	755KB	Image	download
MediaObjects/12974_2023_2927_MOESM7_ESM.docx	469KB	Other	download
MediaObjects/12888_2023_5173_MOESM3_ESM.pdf	159KB	PDF	download
Fig. 2	1527KB	Image	download
MediaObjects/12888_2023_5173_MOESM4_ESM.pdf	30KB	PDF	download
Fig. 2	98KB	Image	download
MediaObjects/12974_2023_2927_MOESM8_ESM.docx	1142KB	Other	download
MediaObjects/12902_2023_1437_MOESM1_ESM.docx	31KB	Other	download
Fig. 2	1346KB	Image	download
MediaObjects/12902_2023_1437_MOESM2_ESM.docx	1656KB	Other	download
Fig. 7	1035KB	Image	download
Fig. 4	270KB	Image	download
MediaObjects/12864_2023_9737_MOESM8_ESM.txt	45KB	Other	download
12951_2015_155_Article_IEq1.gif	1KB	Image	download
Fig. 1	1324KB	Image	download
Fig. 4	659KB	Image	download
Fig. 4	330KB	Image	download
Fig. 1	616KB	Image	download
Fig. 8	980KB	Image	download
Fig. 2	1084KB	Image	download
Fig. 5	508KB	Image	download
12936_2017_2051_Article_IEq78.gif	1KB	Image	download
Fig. 3	739KB	Image	download
Fig. 4	964KB	Image	download
Fig. 6	353KB	Image	download
Fig. 9	902KB	Image	download
Fig. 1	816KB	Image	download
12951_2015_155_Article_IEq2.gif	1KB	Image	download
Fig. 7	5305KB	Image	download
Fig. 1	675KB	Image	download
Fig. 1	630KB	Image	download
Fig. 1	101KB	Image	download
Fig. 10	427KB	Image	download
MediaObjects/42004_2023_1026_MOESM6_ESM.pdf	1159KB	PDF	download
Fig. 2	124KB	Image	download
Fig. 1	156KB	Image	download
MediaObjects/12888_2023_5213_MOESM1_ESM.pdf	485KB	PDF	download
Fig. 1	123KB	Image	download
MediaObjects/12951_2022_1747_MOESM1_ESM.pdf	1907KB	PDF	download
12867_2016_60_Article_IEq2.gif	1KB	Image	download
Fig. 9	45KB	Image	download
Fig. 2	937KB	Image	download
Fig. 4	2368KB	Image	download
12867_2016_60_Article_IEq1.gif	2KB	Image	download

【 图 表 】

12867_2016_60_Article_IEq1.gif

Fig. 4

Fig. 2

Fig. 9

12867_2016_60_Article_IEq2.gif

Fig. 1

Fig. 1

Fig. 2

Fig. 10

Fig. 1

Fig. 1

Fig. 1

Fig. 7

12951_2015_155_Article_IEq2.gif

Fig. 1

Fig. 9

Fig. 6

Fig. 4

Fig. 3

12936_2017_2051_Article_IEq78.gif

Fig. 5

Fig. 2

Fig. 8

Fig. 1

Fig. 4

Fig. 4

Fig. 1

12951_2015_155_Article_IEq1.gif

Fig. 4

Fig. 7

Fig. 2

Fig. 2

Fig. 2

Fig. 2

12936_2017_1885_Article_IEq1.gif

Fig. 3

Fig. 3

Fig. 6

Fig. 5

Fig. 2

【 参考文献 】

• [1]
• [2]
• [3]
• [4]
• [5]
• [6]
• [7]
• [8]
• [9]
• [10]
• [11]
• [12]
• [13]
• [14]
• [15]
• [16]
• [17]
• [18]
• [19]
• [20]
• [21]
• [22]
• [23]
• [24]
• [25]
• [26]
• [27]
• [28]
• [29]
• [30]
• [31]
• [32]
• [33]
• [34]
• [35]
• [36]
• [37]
• [38]
• [39]
• [40]
• [41]
• [42]
• [43]
• [44]
• [45]
• [46]
• [47]
• [48]
• [49]