Abstract
In stressful environments, facilitation often aids plant establishment, but invasive plant pathogens may potentially disrupt these interactions. In many treeline communities in the northern Rocky Mountains of the U.S. and Canada, Pinus albicaulis, a stress‐tolerant pine, initiates tree islands at higher frequencies than other conifers – that is, leads to leeward tree establishment more frequently. The facilitation provided by a solitary (isolated) P. albicaulis leading to tree island initiation may be important for different life‐history stages for leeward conifers, but it is not known which life‐history stages are influenced and protection provided. However, P. albicaulis mortality from the non‐native pathogen Cronartium ribicola potentially disrupts these facilitative interactions, reducing tree island initiation. In two Rocky Mountain eastern slope study areas, we experimentally examined fundamental plant–plant interactions which might facilitate tree island formation: the protection offered by P. albicaulis to leeward seed and seedling life‐history stages, and to leeward krummholz conifers. In the latter case, we simulated mortality from C. ribicola for windward P. albicaulis to determine whether loss of P. albicaulis from C. ribicola impacts leeward conifers. Relative to other common solitary conifers at treeline, solitary P. albicaulis had higher abundance. More seeds germinated in leeward rock microsites than in conifer or exposed microsites, but the odds of cotyledon seedling survival during the growing season were highest in P. albicaulis microsites. Planted seedling survival was low among all microsites examined. Simulating death of windward P. albicaulis by C. ribicola reduced shoot growth of leeward trees. Loss of P. albicaulis to exotic disease may limit facilitation interactions and conifer community development at treeline and potentially impede upward movement as climate warms.
Highlights
During the last 20 years, numerous studies have demonstrated the importance of facilitation interactions to plant survival and regeneration in stressful environments (Bertness and Callaway 1994; Lortie et al 2004; Brooker et al 2008)
We examined: (1) the relative abundance in our study areas of solitary P. albicaulis relative to other treeline conifers; and whether (2) P. albicaulis provides a more protective leeward microsite for seed germination and seedling survival than P. engelmannii and other common treeline microsites; and (3) death of windward P. albicaulis leads to a reduction in shoot length in leeward conifers, which we suggest is a response to increased environmental stress
We examined the relative abundance of solitary P. albicaulis at both Divide Mountain and Line Creek
Summary
During the last 20 years, numerous studies have demonstrated the importance of facilitation interactions to plant survival and regeneration in stressful environments (Bertness and Callaway 1994; Lortie et al 2004; Brooker et al 2008). Survival is improved when extreme climatic conditions are mitigated by windward shelter, such as rocks, topographic niches, and other “nurse objects,” or when an established conifer provides protection for conifers growing in its lee (Callaway 1998; H€attenschwiler and Smith 1999; Germino et al 2002; Resler et al 2005; Resler and Tomback 2008; Batllori et al 2009).
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