Department of Biological Sciences, Wright State University, Dayton, Ohio 45435, USA.
Ecology. 2013 May;94(5):1165-75. doi: 10.1890/11-2199.1.
Old-growth forests dominated by understory-tolerant tree species are among forest types most likely to be in equilibrium. However, documentation of the degree to which they are in equilibrium over decades-long time periods is lacking. Changes in climate, pathogens, and land use all are likely to impact stand characteristics and species composition, even in these forests. Here, 32 years of vegetation changes in an old-growth beech (Fagus grandifolia)-sugar maple (Acer saccharum) forest in Hueston Woods, southwest Ohio, USA, are summarized. These changes involve canopy composition and structure, turnover in snags, and development of vegetation in treefall gaps. Stand basal area and canopy density have changed little in 32 years. However, beech has decreased in canopy importance (49% to 32%) while sugar maple has increased (32% to 47%). Annual mortality was about 1.3% throughout the study period. Mortality rates increased with stem size, but the fraction of larger stems increased due to ingrowth from smaller size classes. Beech was represented by more very large stems than small canopy stems: over time, death of those larger stems with inadequate replacement has caused the decrease in beech importance. Sugar maple was represented by more small canopy stems whose growth has increased its importance. The changes in beech and sugar maple relative importance are hypothesized to be due to forest fragmentation mostly from the early 1800s with some possible additional effects associated with the formation of the state park. Snag densities (12-16 snags/ha) and formation rates (1-3 snags.ha(-1).yr(-1)) remained consistent. The treefall gaps previously studied are closing, with a few, large stems remaining. Death of gap border trees occurs consistently enough to favor species able to combine growth in gaps and survival in the understory.
由耐林下生长树种主导的老龄林是最有可能处于生态平衡的森林类型之一。然而,缺乏关于它们在几十年时间内达到生态平衡的程度的记录。气候变化、病原体和土地利用等因素都可能影响林分特征和物种组成,即使在这些森林中也是如此。本文总结了美国俄亥俄州西南部休斯顿伍兹(Hueston Woods)一片老龄山毛榉(Fagus grandifolia)-糖枫(Acer saccharum)林 32 年来的植被变化。这些变化涉及林冠组成和结构、枯立木的更替以及林窗中植被的发育。32 年来,林分的基部面积和林冠密度变化不大。然而,山毛榉在林冠中的重要性下降(从 49%降至 32%),而糖枫的重要性增加(从 32%增至 47%)。整个研究期间的年死亡率约为 1.3%。死亡率随树干大小而增加,但由于较小尺寸类别的茎干向内生长,较大尺寸的茎干比例增加。山毛榉的大型枯立木比小型林冠木多:随着时间的推移,那些因缺乏替代而死亡的较大枯立木导致山毛榉重要性下降。糖枫的小型林冠木比例增加,其生长使其重要性增加。山毛榉和糖枫相对重要性的变化被认为是森林破碎化的结果,主要来自 19 世纪早期,而与州立公园形成有关的一些可能的额外影响也导致了森林的破碎化。枯立木密度(12-16 株/公顷)和形成速率(1-3 株/公顷·年)保持不变。之前研究过的林窗正在关闭,只剩下少数几棵大的枯立木。林窗边界树木的死亡频率足够高,有利于那些能够在林窗中生长并在林下生存的物种。
