恶劣的环境条件促进了附生蕨类植物的合作行为。

Plant signaling & behavior Pub Date : 2024-12-31 Epub Date: 2024-03-30 DOI:10.1080/15592324.2024.2335453
Kahurangi Cronin, Ian Hutton, K C Burns
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引用次数: 0

摘要

众所周知,严酷、不可预测的环境有利于动物的群体合作。植物是否表现出类似的关系尚不清楚。鹿角蕨类植物(Platycerium bifurcatum,多足蕨科)是一种附生植物,它们形成合作群体,在树顶上建立共同的水和养分 "巢穴",这种栖息地的特点是水和养分压力大。我们进行了实地观察,以检验鹿角蕨类植物从树冠上脱落并落到森林地面后,是否会继续生活在大型、繁殖活跃的群体中,因为在森林地面上,鹿角蕨类植物受到水分和养分匮乏的限制较小。为了排除林地光照限制可能造成的混杂影响,我们还进行了一项多年期玻璃温室实验,在标准化光照条件下,将单株植物移植到土壤中和垂直方向的木板上。野外观察结果表明,脱落的植群形成的群体较小,繁殖能力低于附生植群。玻璃温室实验的结果表明,即使在阳光充足的环境中生长,陆生个体也倾向于独居,而附生个体则倾向于招募新的个体组成群落。实验结果还显示,在盆栽土壤中生长并暴露在充足阳光下的植物比附生植物的孢子数量更多。然而,野生鹿角蕨类植物一般无法在土壤和光照资源都很充足的地方生长,或许只有在树冠顶端有发达巢穴的大型附生群落才是例外。总体结果表明,树顶恶劣的环境条件会促使鹿角蕨类植物形成群落,这一点与群居动物类似。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Harsh environmental conditions promote cooperative behavior in an epiphytic fern.

Harsh, unpredictable environments are known to favor cooperative groups in animals. Whether plants exhibit similar relationships is unknown. Staghorn ferns (Platycerium bifurcatum, Polypodiaceae) are epiphytes that form cooperative groups which build communal water and nutrient 'nests' at the tops of trees, a habitat characterized by water and nutrient stress. We conducted field observations to test whether staghorn ferns continue to live in large, reproductively active groups after they become dislodged from the canopy and fall to the forest floor, where they are less limited by water and nutrient deprivation. To rule out the potentially confounding effects of light limitation on the forest floor, we also conducted a multi-year glasshouse experiment where we transplanted individual plants into soil and onto vertically oriented boards under standardized light conditions. Results from field observations showed that dislodged colonies formed smaller groups that reproduced less than epiphytic colonies. Results from the glasshouse experiment showed that even when growing in full sun, terrestrial individuals tended to remain solitary, while epiphytic individuals tended to recruit new individuals into colonies. Results also showed that plants growing in potting soil and exposed to full sunlight sporulated more heavily than plants growing epiphytically. However, localities that are characterized by both elevated soil and light resources are generally not available to staghorn ferns in the wild, perhaps with the exception of large, epiphytic colonies with well-developed nests at the top of tree canopies. Overall results indicate that the harsh environmental conditions at the tops of trees trigger the formation of colonies in staghorn ferns, similarly to group living animals.

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