Do plants respond to multi‐year disturbance rhythms and are we missing the beat?

IF 3.1 2区 环境科学与生态学 Q2 ECOLOGY Oikos Pub Date : 2024-09-18 DOI:10.1111/oik.10791
Lance T. Vermeire, Kurt O. Reinhart, Jacqueline Ott
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Abstract

Disturbance seasonality and return interval can create complex interactions of direct and indirect effects on species and ecosystems. Fire is a key grassland disturbance, yet long‐term research examining seasonality and return intervals is limited. A 15‐year experiment testing combinations of fire seasonality (summer, fall, spring) and return interval (2, 3, 6‐year) plus non‐burned controls was conducted in northern mixed prairie to evaluate effects on the plant community. Hesperostipa comata is a native C3 bunchgrass and dominant species in northern mixed prairie and previously observed to be fire‐sensitive. Current‐year aboveground biomass results were generally counter to expectations based on short‐term research. Fire increased H. comata biomass with a strong, rhythmic response pattern to a specific fire seasonality‐return‐interval combination (fall fire at 3‐year return intervals) that periodically increased biomass to more than three times that with no fire. Through the first four post‐fire growing seasons, biomass with summer, fall and spring fire across return intervals was 41, 89 and 93% of that with no fire. Afterward, no fire combination produced less biomass than no fire and recurring patterns emerged with large increases in biomass, particularly with fall fire at 3‐year intervals. Peak biomass years were regularly two growing seasons after 3‐year fall fire and occurred across wet, near‐average and dry conditions. We hypothesize that productivity responses were driven by the combination of demographic processes of seedling recruitment and synchronization of multiple tiller age classes. Because short‐term negative effects were reversed and regular patterns only emerged 5 years after study initiation, more long‐term research evaluating fire regimes is recommended to expand upon tests of individual factors over short periods. This suggestion is based on fire research, but likely applies to multiple forms of disturbance and demonstrates how demographic processes can inform responses for individual species and larger ecosystem functions, such as productivity.
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植物是否会对多年的干扰节奏做出反应,我们是否错过了这一节奏?
干扰的季节性和回归间隔会对物种和生态系统产生复杂的直接和间接影响。火灾是一种主要的草原干扰,但对火灾季节性和回归间隔的长期研究却很有限。我们在北部混合草原进行了一项为期 15 年的实验,测试了火灾季节性(夏季、秋季、春季)和回归间隔(2 年、3 年、6 年)的组合以及非火灾对照,以评估对植物群落的影响。Hesperostipa comata 是一种原生 C3 束草,也是北部混合草原的优势物种,以前曾被观察到对火敏感。当年的地上生物量结果与短期研究的预期结果基本相反。火灾增加了 H. comata 的生物量,对特定的火灾季节性-回归间隔组合(3 年回归间隔的秋季火灾)具有强烈的、有节奏的反应模式,周期性地将生物量增加到无火灾时的三倍以上。在火灾后的头四个生长季节,夏季、秋季和春季火灾的生物量分别是无火灾的 41%、89% 和 93%。之后,任何火烧组合产生的生物量都低于无火烧,而且出现了生物量大幅增加的反复模式,尤其是每隔 3 年的秋季火烧。生物量峰值年定期出现在 3 年秋季火灾后的两个生长季,并出现在潮湿、接近平均水平和干燥的条件下。我们假设,生产力反应是由幼苗招募和多个分蘖年龄等级同步的人口过程共同驱动的。由于短期的负面影响在研究开始 5 年后才出现逆转和规律性模式,因此建议对火灾制度进行更长期的评估研究,以扩大对短期个别因素的测试。这项建议是基于火灾研究提出的,但很可能适用于多种形式的干扰,并说明了人口统计过程如何为个体物种和更大的生态系统功能(如生产力)的响应提供信息。
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来源期刊
Oikos
Oikos 环境科学-生态学
CiteScore
6.20
自引率
5.90%
发文量
152
审稿时长
6-12 weeks
期刊介绍: Oikos publishes original and innovative research on all aspects of ecology, defined as organism-environment interactions at various spatiotemporal scales, so including macroecology and evolutionary ecology. Emphasis is on theoretical and empirical work aimed at generalization and synthesis across taxa, systems and ecological disciplines. Papers can contribute to new developments in ecology by reporting novel theory or critical empirical results, and "synthesis" can include developing new theory, tests of general hypotheses, or bringing together established or emerging areas of ecology. Confirming or extending the established literature, by for example showing results that are novel for a new taxon, or purely applied research, is given low priority.
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