Using priority effects to manipulate competitive relationships in restoration

Young, Truman P.; Stuble, Katharine L.; Balachowski, Jennifer; Werner, Chhaya M.

doi:10.1111/rec.12384

Cited by 90 publications

(123 citation statements)

References 53 publications

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“…), providing evidence that the impacts we see in this study will likely have persistent impacts on the plant community. Of course, our observation of the shifting strength of priority is most relevant in a restoration context in which suites of species are introduced in several stages, or non‐desired species are suppressed while desired species are establishing (Young et al., in press ). Community dynamics become more complicated when considering natural community assembly.…”

Section: Discussionmentioning

confidence: 99%

“…). However, the importance of priority effects in shaping communities varies across studies (Young et al., in press ). These effects are often contingent on environmental conditions during community assembly (Kardol et al.…”

Section: Introductionmentioning

confidence: 99%

“…, Tucker and Fukami ); in particular, site and year effects (Vaughn and Young ). Despite their apparent importance in driving community structure, such contingencies in community assembly processes are rarely explored outside of highly controlled laboratory or greenhouse conditions (Young et al., in press ).…”

Section: Introductionmentioning

confidence: 99%

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Outside the envelope: rare events disrupt the relationshipbetween climate factors and species interactions

Stuble

Zefferman

Wolf

et al. 2017

Ecology

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The order in which species arrive during community assembly can be an important driver of community composition and function. However, the strength of these priority effects can be variable, in part because of strong site and year effects. To understand how priority effects vary in importance with abiotic conditions, we initiated identical community assembly experiments in which we varied the timing of arrival of native and exotic grass species in each of 4 yr across three grassland sites in northern California. This uniquely replicated experiment tested the power of priority to determine initial community structure in a restoration context across a natural range of conditions. There were large and significant differences in both total seeded cover and the strength of priority across sites and years of initiation, confirming the suspicion that most ecological experiments may lack spatial and temporal generality. On the other hand, much of the variation in strength of priority could be related to climate. Strikingly, however, the model fit across the three sites and the first 3 yr of the study (the first nine experiments) was radically altered when we included the fourth year, which was characterized by an unusual weather pattern with higher temporal variability in rainfall (a rainfall pattern predicted to increase with climate change). This year produced relatively low strength of priority, supporting the suggestion that highly variable climates may be associated with lower strength of priority effects. Experiments that examine community assembly over a range of naturally occurring abiotic conditions enhance our ability to predict when priority effects will be important, allowing us to explore shifting patterns of community assembly in the face of climate change and optimize restoration strategies based on environmental conditions.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Outside the envelope: rare events disrupt the relationshipbetween climate factors and species interactions

Stuble

Zefferman

Wolf

et al. 2017

Ecology

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“…; Ejrnaes, Bruun & Graae ; Vaughn & Young ), and can be used to manipulate community trajectories to achieve the goals of ecological restoration (Young, Petersen & Clary ; Young et al . ). Environmental conditions during community establishment can be another important, yet experimentally underexplored, determinant of community composition (Berlow ; Belyea & Lancaster ; Chase ).…”

Section: Introductionmentioning

confidence: 97%

Every restoration is unique: testing year effects and site effects as drivers of initial restoration trajectories

Stuble

Fick

Young

2017

Journal of Applied Ecology

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Summary1. The outcomes of restoration efforts are contingent on the specifics of the restoration practices utilized, but also on uncontrolled contingencies such as site effects and year effects. Although restoration practitioners have long been aware that the successes of their projects vary from site to site and from year to year, there have been few direct experimental tests of these contingencies. 2. We established grassland restoration plots identically across three sites in northern California, in each of four establishment years (for 12 site-year combinations). 3. The resulting plant communities differed significantly across sites and across establishment years. As a consequence of these community differences, there were 'forb years' and 'grass years', although these sometimes differed among sites. Multivariate analysis identified mean annual temperature and total precipitation as likely drivers of some of these differences. 4. Synthesis and applications. Our results not only confirm the idiosyncratic nature of the results of restoration efforts (and ecological experiments in general) but also demonstrate that some of this variation can potentially be related to measurable environmental conditions. Understanding the drivers of this variability can ultimately aid restoration practitioners by allowing them to focus restoration efforts on years and sites most likely to yield desired outcomes.

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“…There was no seeding or planting of riparian plant species at our restoration sites and it could be that seeding or planting (planting preferred, see Dietrich et al 2015) could accelerate both the recovery of riparian species composition and N-processing. However, given that the arrival order of plants plays an important role for which type of vegetation will develop at restored sites (Sarneel et al 2016;Young et al 2016), the selection of species to be introduced has to be done with care.…”

Section: Discussionmentioning

confidence: 99%

Recovery of nitrogen cycling in riparian zones after stream restoration using δ 15N along a 25-year chronosequence in northern Sweden

Hasselquist

Sparks

2016

Plant Soil

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Background and aims Swedish boreal streams were modified to transport timber by pushing boulders to stream sides, creating levees that disconnected streams from riparian areas. Many streams have since been restored and our goal was to understand how this affects riparian nitrogen (N) cycling. Methods We compared the natural abundance of δ 15 N isotopes in foliage and roots of Filipendula ulmaria plus soils and litter along streams restored 2-25 years ago. We measured sources of N, potential immobilization of N, namely plant diversity and biomass, and the amount and sources of carbon (C) to determine if these were important for describing riparian N cycling. Results The δ 15 N of F. ulmaria foliage changed dramatically just after restoration compared to the channelized, disconnected state and then converged over the next 25 years with the steady-state reference. Conclusions The disturbance and reconnection of the stream with the riparian zone during restoration created a short-term pulse of N availability and gaseous losses of N as a result of enhanced microbial processing of N. With increasing time since restoration, N availability appears to have decreased, and N sources changed to those derived from mycorrhizae, amino acids, or the humus layer, or there was enhanced N-use efficiency by older, more diverse plant communities.

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Using priority effects to manipulate competitive relationships in restoration

Cited by 90 publications

References 53 publications

Outside the envelope: rare events disrupt the relationshipbetween climate factors and species interactions

Outside the envelope: rare events disrupt the relationshipbetween climate factors and species interactions

Every restoration is unique: testing year effects and site effects as drivers of initial restoration trajectories

Recovery of nitrogen cycling in riparian zones after stream restoration using δ 15N along a 25-year chronosequence in northern Sweden

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