Enhanced precipitation offsets climate warming inhibition on Solidago canadensis growth and sustains its high tolerance

Bao, Xiaoyu; Wang, Zu-Xing; He, Zhengsheng; He, Wei‐Ming

doi:10.1016/j.gecco.2022.e02023

Cited by 4 publications

(2 citation statements)

References 31 publications

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“…These results support our first hypothesis that warming alone has inhibitory effects on the growth of both invasive S. canadensis and native A. argyi . Our experimental results are also similar to previous results finding that warming has a negative effect on plant growth [ 72 , 73 ]. Biomass allocation is often related to plant health and productivity and can vary by species and environmental context [ 74 , 75 ].…”

Section: Discussionsupporting

confidence: 92%

Effects of Warming, Phosphorous Deposition, and Both Treatments on the Growth and Physiology of Invasive Solidago canadensis and Native Artemisia argyi

Cui

Yang

Ren

et al. 2023

Plants

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Anthropogenic climate change and species invasion are two major threats to biodiversity, affecting the survival and distribution of many species around the world. Studying the responses of invasive species under climate change can help better understand the ecological and genetic mechanisms of their invasion. However, the effects of warming and phosphorus deposition on the phenotype of native and invasive plants are unknown. To address the problem, we applied warming (+2.03 °C), phosphorus deposition (4 g m−2 yr−1 NaH2PO4), and warming × phosphorus deposition to Solidago canadensis and Artemisia argyi to measure the direct effects of environmental changes on growth and physiology at the seedling stage. Our results reveal that the physiology parameters of A. argyi and S. canadensis did not change significantly with the external environment. Under phosphorus deposition, S. canadensis had higher plant height, root length, and total biomass compared to A. argyi. Interestingly, warming has an inhibitory effect on the growth of both A. argyi and S. canadensis, but overall, the reduction in total biomass for S. canadensis (78%) is significantly higher than A. argyi (52%). When the two plants are treated with warming combined with phosphorus deposition, the advantage gained by S. canadensis from phosphorus deposition is offset by the negative effects of warming. Therefore, under elevated phosphorus, warming has a negative effect on the invasive S. canadensis and reduces its growth advantage.

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Section: Discussionsupporting

confidence: 92%

Effects of Warming, Phosphorous Deposition, and Both Treatments on the Growth and Physiology of Invasive Solidago canadensis and Native Artemisia argyi

Cui

Yang

Ren

et al. 2023

Plants

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“…Cao et al [57] showed that S. canadensis exhibits more plasticity than some native species when it comes to reproductive phenology (prolonging the flowering duration and increasing reproductive investments and root/leaf ratio) in response to simulated climate change. In another research conducted by Bao et al [64], the primary inquiry revolved around the impact of climate warming and increased precipitation on the growth and tolerance of S. canadensis during its establishment phase. In their conclusions, the authors suggested that the increased precipitation may fully counteract the inhibitory impacts of climate warming on the growth of S. canadensis, thereby maintaining its high resilience to heat stress.…”

Section: Behind the Invasiveness Of S Canadensismentioning

confidence: 99%

The Invasive Alien Plant Solidago canadensis: Phytochemical Composition, Ecosystem Service Potential, and Application in Bioeconomy

Poljuha,

Sladonja,

Uzelac Božac

et al. 2024

Plants

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Solidago canadensis L. (Canadian goldenrod) is a widely distributed invasive herb from the Asteraceae family. It contains compounds that can change the soil structure and its nutritional components and thus affect indigenous species’ growth, germination, and survival. Consequently, it can pose a major ecological threat to biodiversity. On the other hand, many studies show that this species, due to its chemical properties, can be used for many positive purposes in pharmacy, agriculture, medicine, cosmetic industry, etc. S. canadensis contains a diverse array of bioactive compounds that may be responsible for antioxidant, antimicrobial, and anticancer activities. Many studies have discussed the invasiveness of S. canadensis, and several chemical and genetic differences between this plant in native and introduced environments have been discovered. Previous ecological and environmental evaluations of the potential of S. canadensis as an ecosystem services provider have come out with four promising groups of its products: active extracts, essential oil, fuel, and others. Although identified, there is a need for detailed validation and prioritisation of ecosystem services. This article aims to overview the S. canadensis invasive features, emphasising chemical characterisation and its potential for providing ecosystem services. Moreover, it identifies scenarios and proposes a methodology for estimating S. canadensis use in bioeconomy.

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Plant Invasion and Climate Change: A Global Overview

Sharma,

Kaur,

Kaur

et al. 2023

Plant Invasions and Global Climate Change

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Enhanced precipitation offsets climate warming inhibition on Solidago canadensis growth and sustains its high tolerance

Cited by 4 publications

References 31 publications

Effects of Warming, Phosphorous Deposition, and Both Treatments on the Growth and Physiology of Invasive Solidago canadensis and Native Artemisia argyi

Effects of Warming, Phosphorous Deposition, and Both Treatments on the Growth and Physiology of Invasive Solidago canadensis and Native Artemisia argyi

The Invasive Alien Plant Solidago canadensis: Phytochemical Composition, Ecosystem Service Potential, and Application in Bioeconomy

Plant Invasion and Climate Change: A Global Overview

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