Exploring Past and Future Distributions of the Rare Appalachian Oak Fern Using MaxEnt Modeling

IF 0.7 4区 生物学 Q4 PLANT SCIENCES
Nikolai M. Hay, Jadesola Akinwuntan, Victor Cai, M. Windham, K. Pryer
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引用次数: 0

Abstract

Abstract. Anthropogenic climate change is projected to have an especially negative impact on the survival of plants that are dependent on limited microclimatic refugia or that already reside at their climatic extreme. Gymnocarpium appalachianum is a narrowly endemic fern restricted to cold mountaintops and algific vents in the central and southern Appalachian region of eastern North America. It is the much rarer of the two documented diploid parents of the circumboreal allotetraploid G. dryopteris––one of the most widespread fern species on the planet. Gymnocarpium appalachianum is a good case study for forecasting how evolutionarily significant, but rare, species might survive on a warming planet. We utilize an ecological niche modeling approach (MaxEnt) to explore the projected distribution of G. appalachianum under past (Last Glacial Maximum) and future climate models. All known verified herbarium records of G. appalachianum were georeferenced, for a total of 70 occurrence points. Nineteen standard bioclimatic variables extracted from WorldClim were used to model near-current climate projections; representative concentration pathways (RCPs 2.6 and 8.5) were used for future climate projections (2070). The temperature annual range, mean temperature of warmest quarter, precipitation of driest month, precipitation of coldest quarter, and mean diurnal range were identified as the key variables for shaping the distribution of G. appalachianum. An unanticipated result from our analyses is that G. appalachianum has past and current projected habitat suitability in Alaska. Because this overlaps with the current range of G. disjunctum, the other diploid parent of G. dryopteris, it suggests a possible region of origin for this circumboreal tetraploid descendent of G. appalachianum––a research avenue to be pursued in the future. Our study envisions a dire fate for G. appalachianum; its survival will likely require an urgent contingency plan that includes human-mediated population relocation to cooler, northern locations. Understanding the long-term sustainability of narrowly endemic plants such as G. appalachianum is critical in decisions about their management and conservation.
利用MaxEnt模型探索稀有阿巴拉契亚橡树蕨的过去和未来分布
摘要预计人为气候变化将对依赖有限的小气候避难所或已经处于气候极端的植物的生存产生特别负面的影响。阿巴拉契亚裸果蕨是一种狭窄的特有蕨类,仅限于北美洲东部阿巴拉契亚中南部寒冷的山顶和发痛的喷口。它是地球上分布最广泛的蕨类物种之一,是环北方异四倍体鳞毛蕨的两个二倍体亲本中罕见的一个。半乳糖裸核是一个很好的案例研究,可以预测具有进化意义但罕见的物种如何在变暖的地球上生存。我们利用生态位建模方法(MaxEnt)来探索在过去(最后一次冰川盛期)和未来气候模型下阿巴拉契亚木的预测分布。对所有已知的已证实的阿巴拉契亚木植物标本馆记录进行了地理参考,共有70个发生点。从WorldClim中提取的19个标准生物气候变量用于模拟近现代气候预测;代表性浓度途径(RCP 2.6和8.5)用于未来气候预测(2070)。温度年变化范围、最热季平均温度、最干燥月降水量、最冷季降水量和平均日变化范围被确定为形成阿巴拉契亚木分布的关键变量。我们的分析得出了一个意想不到的结果,即阿巴拉契亚木过去和现在都有阿拉斯加的栖息地适宜性。由于这与鳞毛蕨的另一个二倍体亲本间断毛蕨的当前范围重叠,这表明这种北半球四倍体的阿巴拉契亚毛蕨后代可能有一个起源区域——这是未来的研究途径。我们的研究设想了G.appalachianum的可怕命运;它的生存可能需要一个紧急的应急计划,其中包括由人类介导的人口迁移到更凉爽的北部地区。了解阿巴拉契亚木等狭义特有植物的长期可持续性,对其管理和保护决策至关重要。
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来源期刊
American Fern Journal
American Fern Journal 生物-植物科学
CiteScore
1.20
自引率
0.00%
发文量
28
审稿时长
6 months
期刊介绍: The American Fern Journal is a peer-reviewed journal focused on the biology of ferns and lycophytes.
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