Study of Ecological Response of Endangered Sarcandra glabra (Thunb.) Nakai according to Moisture and Nutrient under Condition of Climate Change for Propagation and Restoration

Lee, Soo In; Lee, Eung-Pill; Jung, Young‐Ho; Kim, Eui-Ju; Lee, Jae-Keun; Lee, Seungyeon; Park, Jae-Hoon; Lee, Sang-Hun; You, Young-Han

doi:10.13047/kjee.2018.32.1.30

Cited by 2 publications

(2 citation statements)

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“…The effects of climate change on plant growth and physiology have been predicted by exploring changes in the growth of plants under increased CO 2 and temperature in conjunction with other environmental factors such as soil moisture and nutrients. Sarcandra glabra showed an increased resistance to soil organic matter content and moisture conditions in a warming environment, suggesting that these factors do not limit the growth of this species under these conditions (Lee et al 2018). The growth of Bupleurum latissimum was more sensitive to the increased CO 2 and temperature than to other environmental conditions, e.g., light, moisture, and nutrients; its maximum growth increase occurred when nutrients, CO 2 , and temperature were increased (Ahn et al 2016).…”

Section: Ecosystem: Biota In the Current State Phenologymentioning

confidence: 95%

“…Many studies have focused on how climate change affects the growing season and phenology of plants (Hur et al 2014;Hur and Ahn 2015;Ahn et al 2016;Choi et al 2016;Lee et al 2018). Plant phenology studies have been mainly conducted at the monitoring level at the long-term ecology research sites of national research institutes.…”

Section: Ecosystem: Biota In the Current State Phenologymentioning

confidence: 99%

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Trends in the effects of climate change on terrestrial ecosystems in the Republic of Korea

et al. 2021

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In this review, we aimed to synthesize the current knowledge on the observed and projected effects of climate change on the ecosystems of Korea (i.e., the Republic of Korea (ROK) or South Korea), as well as the main causes of vulnerability and options for adaptation in these ecosystems based on a range of ecological and biogeographical data. To this end, we compiled a set of peer-reviewed papers published since 2014. We found that publication of climate-related studies on plants has decreased in the field of plant phenology and physiology, whereas such publication has rapidly increased in plant and animal community ecology, reflecting the range shifts and abundance change that are occurring under climate change. Plant phenology studies showed that climate change has increased growing seasons by advancing the timing of flowering and budburst while delaying the timing of leafing out. Community ecology studies indicated that the future ranges of cold-adapted plants and animals could shrink or shift toward northern and high-elevation areas, whereas the ranges of warm-adapted organisms could expand and/or shift toward the areas that the aforementioned cold-adapted biota previously occupied. This review provides useful information and new insights that will improve understanding of climate change effects on the ecosystems of Korea. Moreover, it will serve as a reference for policy-makers seeking to establish future sectoral adaptation options for protection against climate change.

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Section: Ecosystem: Biota In the Current State Phenologymentioning

confidence: 95%