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Rachel Spigler

Rachel Spigler

Temple University

H-index: 16

North America-United States

About Rachel Spigler

Rachel Spigler, With an exceptional h-index of 16 and a recent h-index of 12 (since 2020), a distinguished researcher at Temple University, specializes in the field of evolutionary ecology, mating system evolution, natural selection, plant-pollinator interactions.

His recent articles reflect a diverse array of research interests and contributions to the field:

Phenology and foraging bias contribute to sex‐specific foraging patterns in the rare declining butterfly Argynnis idalia idalia

Inbreeding Reduces Floral Longevity and Flower Size in the Mixed-Mating Biennial Sabatia angularis

How early does the selfing syndrome arise? Associations between selfing ability and flower size within populations of the mixed‐mater Collinsia verna

Changes in female function and autonomous selfing across floral lifespan interact to drive variation in the cost of selfing

Causes and consequences of variation in heterospecific pollen receipt in Oenothera fruticosa

New genomic resources and comparative analyses reveal differences in floral gene expression in selfing and outcrossing Collinsia sister species

Type and intensity of surrounding human land use, not local environment, shape genetic structure of a native grassland plant

AHLF: ad hoc learning of fragmentation patterns in mass spectra detects post-translationally modified peptides prior to database search

Rachel Spigler Information

University

Position

___

Citations(all)

1047

Citations(since 2020)

411

Cited By

815

hIndex(all)

16

hIndex(since 2020)

12

i10Index(all)

20

i10Index(since 2020)

15

Email

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University Profile Page

Temple University

Google Scholar

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Rachel Spigler Skills & Research Interests

evolutionary ecology

mating system evolution

natural selection

plant-pollinator interactions

Top articles of Rachel Spigler

Title

Journal

Author(s)

Publication Date

Phenology and foraging bias contribute to sex‐specific foraging patterns in the rare declining butterfly Argynnis idalia idalia

Ecology and Evolution

Matthew W Chmielewski

Skyler Naya

Monica Borghi

Jen Cortese

Alisdair R Fernie

...

2023/7

Inbreeding Reduces Floral Longevity and Flower Size in the Mixed-Mating Biennial Sabatia angularis

International Journal of Plant Sciences

Rachel B Spigler

Annmarie Charles

2023/3/1

How early does the selfing syndrome arise? Associations between selfing ability and flower size within populations of the mixed‐mater Collinsia verna

American Journal of Botany

Robert M McElderry

Rachel B Spigler

Donna W Vogler

Susan Kalisz

2022/2

Changes in female function and autonomous selfing across floral lifespan interact to drive variation in the cost of selfing

American Journal of Botany

Rachel B Spigler

Rossana Maguiña

2022/4

Causes and consequences of variation in heterospecific pollen receipt in Oenothera fruticosa

American Journal of Botany

Gerard X Smith

Mark T Swartz

Rachel B Spigler

2021/9

New genomic resources and comparative analyses reveal differences in floral gene expression in selfing and outcrossing Collinsia sister species

G3

Lauren J Frazee

Joanna Rifkin

Dinusha C Maheepala

Alannie-Grace Grant

Stephen Wright

...

2021/8/1

Type and intensity of surrounding human land use, not local environment, shape genetic structure of a native grassland plant

Molecular Ecology

Sarah L Emel

Shichen Wang

Richard P Metz

Rachel B Spigler

2021/2

AHLF: ad hoc learning of fragmentation patterns in mass spectra detects post-translationally modified peptides prior to database search

Tom Altenburg

Shengbo Wang

Thilo Muth

Bernhard Y Renard

2020

Too attractive to self: How pollinators can interfere with the evolution of selfing

bioRxiv

RB Spigler

LM Smith-Ramesh

S Kalisz

2020/5/21

See List of Professors in Rachel Spigler University(Temple University)