ライフサイエンスコーパス: reproductive strategy

1 ife-history traits of an organism, including reproductive strategy.

2 g is hypothetically an evolutionary dead-end reproductive strategy.

3 ork to elucidate the origins of this unusual reproductive strategy.

4 butting and brain damage incurred by bovids' reproductive strategy.

5 assessment of environmental quality into its reproductive strategy.

6 its related to the species' pace of life and reproductive strategy.

7 dea), a group that shows little variation in reproductive strategy.

8 al development may allow organisms to adjust reproductive strategy.

9 isms by which early life adversity can alter reproductive strategies.

10 ates that perform alternating sexual-asexual reproductive strategies.

11 le-male competition-work in concert to guide reproductive strategies.

12 to study behavioral adaptations to different reproductive strategies.

13 lay an immense variety of shapes, sizes, and reproductive strategies.

14 n of biological and behavioral components of reproductive strategies.

15 Some species use unusual reproductive strategies.

16 rent morphology is associated with different reproductive strategies.

17 autocorrelation in demographic rates across reproductive strategies.

18 ive biology and the evolution of alternative reproductive strategies.

19 and differences illuminate developmental and reproductive strategies.

20 the interactive evolution of male and female reproductive strategies.

21 oteins are conserved, despite differences in reproductive strategies.

22 e-living lifestyles and understand different reproductive strategies.

23 discrete Y chromosomes that control complex reproductive strategies.

24 calibrate adult hormone production to adjust reproductive strategies.

25 different tasks, and the groups evolved new reproductive strategies.(1)(,)(2)(,)(3)(,)(4)(,)(5) Rece

26 phology [12-14], palaeoecology [10, 15, 16], reproductive strategies [17, 18], feeding methods [9, 19

27 ions, male bonobos have more individualistic reproductive strategies.(25).

28 at humans are 'cooperative breeders', with a reproductive strategy adapted to conditions where mother

29 However, this reproductive strategy also occurs in medium- to large-si

30 Fishes exhibit the most diverse reproductive strategies among vertebrates.

31 Males and females typically pursue divergent reproductive strategies and accordingly require differen

32 ng MAT loci evolution owing to their diverse reproductive strategies and distinct architectures, span

33 an species, challenging traditional views on reproductive strategies and genomic evolution in asexual

34 sis to understand the evolution of different reproductive strategies and how floral pathways interact

35 restingly, despite the enormous diversity of reproductive strategies and lifestyles of higher plants,

36 critical hypotheses, while their spectrum of reproductive strategies and living arrangements - rangin

37 s in plants, fungi exhibit wide variation in reproductive strategies and mating systems.

38 can be key drivers of phenotypes, including reproductive strategies and morphological traits.

39 understanding of the evolutionary ecology of reproductive strategies and sexual dynamics of host orga

40 Despite the wide variation in mosquito reproductive strategies and the present lack of behavior

41 l and sexual displays that ensure successful reproductive strategies and the survival of the species.

42 Here we investigate the impact of plant reproductive strategy and components of species' climati

43 ity provided an opportunity to examine their reproductive strategy and early developmental process, a

44 n taxa, we found a complex interplay between reproductive strategy and geographic distribution.

45 Each morph uses a different complex reproductive strategy and morphs differ dramatically in

46 nge grounds, with the goal to (i) assess the reproductive strategy and seasonality of this species, (

47 ed principles underlying the co-evolution of reproductive strategy and sexual behavior, revealing som

48 These signals promote male reproductive strategy and the effects harmful to hermaph

49 eration, likely due to its apparently clonal reproductive strategy and the resulting infrequent use o

50 , with profound implications for morphology, reproductive strategies, and behavior.

51 e focal species have diverse life histories, reproductive strategies, and habitats, and most are nati

52 etween dinosaurs and birds, suggests similar reproductive strategies, and provides an objective means

53 lerances of lionfish to ocean climate, their reproductive strategy, and duration that the larvae rema

54 These groups with divergent reproductive strategies appear genetically isolated desp

55 Understanding how these reproductive strategies are used is important for determ

56 haps facilitating the emergence of different reproductive strategies as Suiformes diverged and evolve

57 life-history traits related to longevity and reproductive strategies as the main determinants of time

58 tion in space and time influences individual reproductive strategies as well as interspecific pattern

59 ries provide early evidence of the peracarid reproductive strategy, as seen in modern Tanaidacea, and

60 wing, long-lived species at the other, and a reproductive strategy axis, with highly reproductive, it

61 Ys of the three major morphs that differ in reproductive strategy, body size and mating behaviour.

62 key empirical evidence for how variation in reproductive strategies can be maintained over large geo

63 nctions of behavior can conflict; successful reproductive strategies can grow populations to the poin

64 Differences in reproductive strategies can have important implications

65 s may have evolved in tandem with an optimal reproductive strategy characterized by few offspring, bi

66 persistent offending may represent a viable reproductive strategy characterized by higher levels of

67 agile (A. agilis) antechinus have an unusual reproductive strategy characterized by the synchronous d

68 e, they have evolved a variety of remarkable reproductive strategies, combining asexual and sexual mo

69 ncipal component analysis: the fast-slow and reproductive-strategy continua.

70 Within mammals, different reproductive strategies (e.g., egg laying, live birth of

71 Host plant quality also affects insect reproductive strategies: Egg size and quality, the alloc

72 dimorphism, this pattern suggests that male reproductive strategy focused on monopolizing groups of

73 recently introduced 'fast-slow continuum and reproductive strategy' framework to quantify the variati

74 pon infection, for a size-dependent shift in reproductive strategy from bet hedging to terminal inves

75 This may represent a shift in reproductive strategy from queen flights, reported in th

76 This reproductive strategy has evolved independently and repe

77 tudinal data, these findings show that T and reproductive strategy have bidirectional relationships i

78 at these females are pursuing an alternative reproductive strategy, i.e., dispersing to overwinter an

79 a systematic framework for predicting these reproductive strategies in bacteria has not been availab

80 ic program that have coevolved with distinct reproductive strategies in diverse organisms may contrib

81 this nesting site provides empirical data on reproductive strategies in early dinosaurs.

82 axa, our results suggest that differences in reproductive strategies in part promote evolutionary div

83 permitting males and females to adapt their reproductive strategies in response to environmental cha

84 opmental plasticity in male life history and reproductive strategy in humans.

85 ant populations, or masting, is a widespread reproductive strategy in long-lived plants.

86 The origin of the modern avian reproductive strategy in ornithuran birds likely coincid

87 life-history stage distinguishing OP and CP reproductive strategies, in comparison to CP females of

88 We also test between alternative male reproductive strategies, in particular whether reproduct

89 ionally, fungi employ a vast array of sexual reproductive strategies, including classical mating betw

90 innovation necessary for all advanced plant reproductive strategies, including seeds and flowers.

91 Anopheles mosquitoes have evolved different reproductive strategies, independently of being a malari

92 This reproductive strategy involves the regulation of floweri

93 Although this reproductive strategy is common to all Hymenoptera, sex-

94 instar, their opportunity to control colony reproductive strategies may be limited.

95 Flexible morphology and plastic reproductive strategy may constitute an adaptation of tr

96 at make up the regulatory "ground plan" of a reproductive strategy may provide powerful building bloc

97 We discuss how this strange reproductive strategy might evolve, and we consider the

98 They adopt a variety of reproductive strategies: most species are gonochoristic

99 The diverse reproductive strategies of invasive death caps are likel

100 Our results suggest a dynamic trade-off in reproductive strategies of sockeye salmon; adults must b

101 While different reproductive strategies of the two sexes are well-charac

102 , could further our understanding of how the reproductive strategies of women respond to environmenta

103 nd greatly increase the probability that the reproductive strategy of A. afarensis was principally mo

104 s was at least in part due to changes in the reproductive strategy of daphnids following exposure to

105 The unique reproductive strategy of freshwater mussels involves an

106 to plant tissues, represents a sophisticated reproductive strategy of insects.(1) This process is acc

107 ligosaccharides is consistent with the human reproductive strategy of large parental input into reari

108 The reproductive strategy of M. flabellata might prove detri

109 he detection of conspecifics are part of the reproductive strategy of many nonmammalian vertebrates.

110 sexual propagation (cloning) is a widespread reproductive strategy of plants and animals.

111 of Bornean canopy trees, display the unusual reproductive strategy of strict interspecific mast-fruit

112 We report the reproductive strategy of the nematode Mesorhabditis bela

113 exually reproducing animals, male and female reproductive strategies often conflict.

114 The diversity of post-hatching reproductive strategy partly explains the adaptation of

115 lf driven by natural selection on individual reproductive strategies, played a pivotal role in popula

116 hibit a wide continuum of variation in their reproductive strategies, ranging from amphimixis to obli

117 How this novel asexual reproductive strategy relates to current models of stem

118 The female perspective on reproductive strategies remains one of the most active a

119 Here we show that cooperative and parasitic reproductive strategies result in approximately equal fi

120 of reserve to coat in the evolution of plant reproductive strategies, revealing potential ecological

121 environmental tolerances, species diversity, reproductive strategies, seed sizes, and soil preference

122 Overall, we reveal that poison frog reproductive strategies shape movement patterns but not

123 genetics lens to evaluate how three distinct reproductive strategies shape patterns of divergence amo

124 in trait composition, with traits related to reproductive strategy showing the strongest response.

125 d the association between sex differences in reproductive strategies, spatial behavior, and androgen

126 ate young medusae (ephyrae) via two distinct reproductive strategies, strobilation or direct developm

127 that had polyphagous diets and multivoltine reproductive strategies tended to decline in population.

128 Disease-transmitting species use a reproductive strategy, termed anautogeny, that requires

129 cted animals exhibit fundamentally different reproductive strategies than their healthy counterparts.

130 erate latitudes in the past used a different reproductive strategy than modern populations.

131 e animals of many species deploy conditional reproductive strategies that contain distinct alternativ

132 ation of plants and animals, and are part of reproductive strategies that enhance fertility more than

133 imal biphasic models are then developed with reproductive strategies that maximise lifetime reproduct

134 nments, resource availability influences the reproductive strategies that species use, which in turn

135 throughout their reproductive life, a unique reproductive strategy that completely blurs the normal s

136 oats employ a 'risk-sensitive', conservative reproductive strategy that prioritizes survival over rep

137 As the sexes differ in their optimal reproductive strategies, the infection of mothers versus

138 life histories, feeding behaviour as well as reproductive strategies, they all harbour symbiotic micr

139 parental effect suggests Grb10 can influence reproductive strategy through the allocation of maternal

140 th reveal the potential for the evolution of reproductive strategies to alter important life history

141 can selfishly alter arthropod sex ratios and reproductive strategies to increase the proportion of th

142 ngaroos and wallabies, have a very different reproductive strategy to most eutherian mammals whereby

143 t displays unique intraspecific diversity of reproductive strategies, to address the microevolutionar

144 s a broad range of organisms-such as unusual reproductive strategies, totipotency, and cell competiti

145 ts in human life-history traits and survival-reproductive strategies, trading shorter lifespans and r

146 ex is assumed to come at a cost, these mixed reproductive strategies typical of pathogens have remain

147 tract after mating and before ovulation is a reproductive strategy used by many species.

148 We infer that this reproductive strategy was critical to overcoming environ

149 Here, we report a novel reproductive strategy where a fish (Parazen pacificus) p

150 Offspring polymorphism is a reproductive strategy where individual organisms simulta

151 diversification on land, especially that of reproductive strategies, which limits the scope of viabl

152 Nematodes have diverse reproductive strategies, which make them ideal subjects

153 Males and females pursue different reproductive strategies, which often bring them into con

154 Diapause is a physiological reproductive strategy widely employed across the animal

155 ences in behaviour are a result of differing reproductive strategies with males becoming more active

156 by the Sha cytoplasm, leading to a modified reproductive strategy without penalizing total seed prod

157 This recent reproductive strategy would facilitate the maintenance o