Martín-Sanz Ruth C, Santos-Del-Blanco Luis, Notivol Eduardo, Chambel M Regina, San-Martín Roberto, Climent José
Department of Forest Ecology and Genetics. Forest Research Centre (INIA-CIFOR), Crta. A Coruña km 7.5, 28040 Madrid, Spain Sustainable Forest Management Research Institute (UVa-INIA).
Sustainable Forest Management Research Institute (UVa-INIA) IDForest-Biotecnología Forestal Aplicada, Calle Curtidores, 17 34004 Palencia, Spain.
Am J Bot. 2016 Sep;103(9):1582-91. doi: 10.3732/ajb.1600199. Epub 2016 Sep 12.
Serotiny, the maintenance of ripe seeds in closed fruits or cones until fire causes dehiscence, is a key adaptive trait of plants in fire-prone ecosystems, but knowledge of phenotypic plasticity for cone retention in woody plants is extremely scarce. On the basis of published literature and our field observations, we hypothesized that increased aridity might decrease the aerial seed bank as a plastic response, not necessarily adaptive.
We used a Pinus halepensis common garden replicated in three contrasted sites (mild, cold, and dry) to separate population differentiation from phenotypic plasticity of cone serotiny and canopy cone bank (CCB). Differences in growth among trees of the same provenance allowed us to include size effect as a proxy of ontogenetic age for the same chronological age of the trees.
Tree size had a strong negative effect on serotiny, but serotiny degree differed among trial sites even after accounting for size effects. As hypothesized, serotiny was lower at the harsh (dry and cold) sites compared with the mild site. Genetic variation for size-dependent cone serotiny and significant population × site interaction were confirmed, the latter implying different plasticity of serotiny among populations. Population differentiation for CCB showed an ecotypic trend, with positive correlation with temperature oscillation (continentality) and negative correlation with summer rainfall.
Growth-limiting environments exacerbated the precocious release of seeds, contrary to the ecotypic trend found for the aerial cone bank, suggesting a counter-gradient plasticity. This plastic response is potentially maladaptive under a scenario of frequent wildfires.
种子迟落现象,即成熟种子在封闭的果实或球果中留存直至火烧导致开裂,是易发生火灾生态系统中植物的关键适应性状,但关于木本植物球果留存的表型可塑性的知识极为匮乏。基于已发表的文献和我们的实地观察,我们推测干旱加剧可能会导致空中种子库减少,这是一种可塑性反应,不一定具有适应性。
我们利用在三个不同地点(温和、寒冷和干旱)进行重复实验的阿勒颇松(Pinus halepensis)共同园,以区分球果种子迟落现象和树冠球果库(CCB)的种群分化与表型可塑性。同一种源树木间生长的差异使我们能够将大小效应作为树木相同时间年龄的个体发育年龄的替代指标。
树木大小对种子迟落现象有强烈的负面影响,但即使考虑了大小效应,不同试验地点的种子迟落程度仍存在差异。正如所推测的,与温和地点相比,恶劣(干旱和寒冷)地点的种子迟落现象较少。证实了与大小相关的球果种子迟落现象存在遗传变异以及显著的种群×地点相互作用,后者意味着不同种群间种子迟落现象的可塑性不同。CCB的种群分化呈现出生态型趋势,与温度振荡(大陆性)呈正相关,与夏季降雨量呈负相关。
与树冠球果库发现的生态型趋势相反,生长受限的环境加剧了种子的过早释放,这表明存在反梯度可塑性。在频繁发生野火的情况下,这种可塑性反应可能是适应不良的。
