2019
DOI: 10.1073/pnas.1820096116
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Early snowmelt projected to cause population decline in a subalpine plant

Abstract: How climate change influences the dynamics of plant populations is not well understood, as few plant studies have measured responses of vital rates to climatic variables and modeled the impact on population growth. The present study used 25 y of demographic data to analyze how survival, growth, and fecundity respond to date of spring snowmelt for a subalpine plant. Fecundity was estimated by seed production (over 15 y) and also divided into flower number, fruit set, seeds per fruit, and escape from seed predat… Show more

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Cited by 33 publications
(50 citation statements)
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“…Accordingly, and contrary to our observation from the steppe populations, the recruitment in P. pamirica alpine and subnival plants decreased with the occurrence of snowy weather during the previous year's fall and winter respectively. It is interesting to note that this result is also contrary to the negative consequences of early snowmelt on seeding establishment (survival) and seed production documented in a subalpine species from the Colorado Rocky Mountains (Campbell, 2019).…”
Section: Discussionmentioning
confidence: 58%
“…Accordingly, and contrary to our observation from the steppe populations, the recruitment in P. pamirica alpine and subnival plants decreased with the occurrence of snowy weather during the previous year's fall and winter respectively. It is interesting to note that this result is also contrary to the negative consequences of early snowmelt on seeding establishment (survival) and seed production documented in a subalpine species from the Colorado Rocky Mountains (Campbell, 2019).…”
Section: Discussionmentioning
confidence: 58%
“…This result is consistent with other studies that document local extinctions in trailing edge populations at the warm edge of the range (Sheth & Angert ). Indeed, montane plants are vulnerable to extreme reductions in range size as climate change causes many sites to become unsuitable (Dullinger et al ; HĂŒlber et al ; Panetta et al ; Campbell ).…”
Section: Discussionmentioning
confidence: 99%
“…Climate change is decoupling historically correlated conditions, like photoperiod and temperature, but we know little about how climate change shifts fitness landscapes (Etterson & Shaw 2001;Kingsolver et al 2013;Logan et al 2014;Wadgymar et al 2018b). To predict the eco-evolutionary consequences of climate change, we must dissect the extent to which novel climates disrupt long-standing patterns of local adaptation (Wang et al 2010;Wilczek et al 2014) and diminish population growth rates (Panetta et al 2018;Campbell 2019). Here, we address these crucial issues by manipulating the timing of snowmelt and depth of snowpack in temporally and spatially replicated field experiments conducted across an elevational gradient.…”
Section: Introductionmentioning
confidence: 99%
“…Only experimental manipulations of key climatic factors can test the causal role of these factors in local adaptation (Wadgymar et al, 2017;Anderson & Wadgymar, 2020). For example, in high elevation and high latitude systems, climate change is rapidly reducing winter snowpack and accelerating spring snowmelt (e.g., Fyfe et al, 2017), which can expose plants to spring frost that they would not have experienced historically (Inouye, 2008) and contribute to the decline of native plant species (Campbell, 2019). Boechera stricta (Brassicaceae) is a perennial forb native to the Rocky Mountains, where local populations are adapted to historical snowpack levels (Anderson & Wadgymar, 2020).…”
Section: Introductionmentioning
confidence: 99%