Changes of Flowering Time Affected by Climate Change in the Subalpine Region of Mt. Gaya

The average annual temperatures are gradually increasing over time since few decades. This has led to global warming and change in climate. The increase in temperature has not only affected the humans but the flora too. In many flowering plants the temperature has altered the phenology (timing) of flowering, example Cassia fistula, Samanea saman, Delonix regia etc. An attempt is made to investigate the tree Delonix regia (Bojer ex Hook.) Raf. commonly known as Gulmohar. It is monitored for its flowering time since 2016 to 2019. The area selected for study was Bhayandar, Mira road, Andheri and Vile Parle in Mumbai. The data obtained was further analyzed with the literature from different Flora’s and research papers. The actual flowering time according to the old literature was April to June. Since few years it has been observed that Gulmohar flowered twice i.e. October to December and also April to June. The amount of flowers bloomed during October – December was scanty while mass bloom was witnessed during April to June. The phenology of flowering has shifted earlier in response to warming during October – December. The shift in the timing of flowering may have resulted in reproductive failure in the plant. This behaviour of plants is of great concern. More broadly it is important to mitigate climate change by controlling global warming in order to conserve the D. regia trees. It can be used as bio indicator stating the climate change in Mumbai.

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Data requirements for crop modelling—Applying the learning curve approach to the simulation of winter wheat flowering time under climate change

European Journal of Agronomy ◽

10.1016/j.eja.2018.02.003 ◽

2018 ◽

Vol 95 ◽

pp. 33-44 ◽

Cited By ~ 5

Author(s):

M. Montesino-San Martin ◽

D Wallach ◽

J.E. Olesen ◽

A.J. Challinor ◽

M.P Hoffman ◽

...

Keyword(s):

Climate Change ◽

Winter Wheat ◽

Learning Curve ◽

Flowering Time ◽

Crop Modelling ◽

Data Requirements

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Climate change and the optimal flowering time of annual plants in seasonal environments

Global Change Biology ◽

10.1111/gcb.12006 ◽

2012 ◽

Vol 19 (1) ◽

pp. 197-207 ◽

Cited By ~ 22

Author(s):

Jacob Johansson ◽

Kjell Bolmgren ◽

Niclas Jonzén

Keyword(s):

Climate Change ◽

Flowering Time ◽

Annual Plants

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Relationships Between Flowering Time and Rainfall Gradients Across Mediterranean-Desert Transects

Israel Journal of Ecology and Evolution ◽

10.1560/ijee.57.1-2.91 ◽

2011 ◽

Vol 57 (1-2) ◽

pp. 91-109 ◽

Cited By ~ 22

Author(s):

Jaime Kigel ◽

Irit Konsens ◽

Naomi Rosen ◽

Gur Rotem ◽

Ari Kon ◽

...

Keyword(s):

Climate Change ◽

Flowering Time ◽

Eastern Mediterranean ◽

Eastern Mediterranean Region ◽

Early Death ◽

Life Forms ◽

Perennial Grasses ◽

Arid Environments ◽

Change Models ◽

Winter Annuals

There is growing evidence for rapid adaptive evolution in response to climate change, including phenological transitions such as earlier flowering with climate warming. The consequences of these evolutionary changes for population dynamics and shifts in species ranges remain, however, quite unexplored. Here, we propose that inter-population differences in patterns of flowering across geographic precipitation gradients can be considered a proxy for changes in flowering time due to variation in rainfall resulting from climate change. To this end, we analyze trends of variation in flowering time across rainfall gradients in the eastern Mediterranean region in three main plant life-forms present in the local vegetation: winter annuals, geophytes, and perennial grasses. These life-forms cope with the hot and dry summer via a drought escape strategy. The analysis is based on published and unpublished data from common-garden experiments in which plants from populations sampled along rainfall gradients were grown under similar conditions, thus allowing detection of genetic differences in flowering time along the gradient. The data clearly indicate that decreasing rainfall across a Mediterranean-desert transect is associated with earlier flowering in winter annual species. In contrast, the limited available data shows no consistent trend of change in flowering time with decreasing rainfall in geophytes and perennial grasses. The phenological shift to early flowering in winter annuals coping with terminal drought appears to be a widespread method for adaptation to arid environments by stress avoidance, diminishing the risk of early death before seed production. However, changes in flowering time associated with the reduction in precipitation predicted by climate change models are relatively small, suggesting that additional traits are involved in the adaptation to increasing aridity. The hypothesis that low water availability is an environmental signal inducing earlier flowering of annual plants under drought conditions is not supported by experimental data.

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A global test for phylogenetic signal in shifts in flowering time under climate change

Journal of Ecology ◽

10.1111/1365-2745.12701 ◽

2016 ◽

Vol 105 (3) ◽

pp. 627-633 ◽

Cited By ~ 15

Author(s):

Nicole E. Rafferty ◽

Paul D. Nabity

Keyword(s):

Climate Change ◽

Flowering Time ◽

Phylogenetic Signal ◽

Global Test

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Flowering and fruiting responses to climate change of two Arctic plant species, purple saxifrage (Saxifraga oppositifolia) and mountain avens (Dryas integrifolia)

Arctic Science ◽

10.1139/as-2015-0016 ◽

2015 ◽

Vol 1 (2) ◽

pp. 45-58 ◽

Cited By ~ 6

Author(s):

Zoe A. Panchen ◽

Root Gorelick

Keyword(s):

Climate Change ◽

Flowering Time ◽

National Park ◽

Late Summer ◽

Early Spring ◽

Arctic Regions ◽

Saxifraga Oppositifolia ◽

Summer Temperatures ◽

Parks Canada ◽

Contemporary Climate

In temperate regions, there are clear indications that spring flowering plants are flowering earlier due to rising temperatures of contemporary climate change. Temperatures in temperate regions are rising predominantly in spring. However, Arctic regions are seeing unprecedented temperature increases, predominantly towards the end of the growing season. We might, therefore, expect to see earlier flowering of later-season flowering Arctic plants. Parks Canada has been monitoring purple saxifrage (Saxifraga oppositifolia) and mountain avens (Dryas integrifolia) flowering and fruiting times for 20 years at Tanquary Fiord, Quttinirpaaq National Park, Ellesmere Island. Saxifraga oppositifolia flowers in early spring, while D. integrifolia flowers in midsummer. Over the 20-year period, Tanquary Fiord's annual and late-summer temperatures have risen significantly. During the same timeframe, D. integrifolia showed a trend towards earlier flowering and fruiting, but S. oppositifolia showed no changes in flowering or fruiting time. Flowering time was related to monthly temperatures just prior to flowering. The number of flowers produced was related to the previous autumn's monthly temperatures. We found no relationship between flowering time and snowmelt date. Our findings suggest that Arctic community level ecological effects from climate change induced phenology changes will differ from those in temperate regions.

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Changes of the Flowering Time of Trees in Spring by Climate Change in Seoul, South Korea

Phyton ◽

10.32604/phyton.2020.010649 ◽

2020 ◽

Vol 89 (4) ◽

pp. 1019-1033

Author(s):

Hyewon Kim ◽

Chanwoo Park ◽

Jong Hwan Lim ◽

Hye Woo Shin

Keyword(s):

Climate Change ◽

South Korea ◽

Flowering Time

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The evolution of flowering phenology: an example from the wind-pollinated African Restionaceae

Annals of Botany ◽

10.1093/aob/mcaa129 ◽

2020 ◽

Vol 126 (7) ◽

pp. 1141-1153

Author(s):

H Peter Linder

Keyword(s):

Climate Change ◽

Flowering Time ◽

Assortative Mating ◽

Adaptive Radiation ◽

Flowering Phenology ◽

Sister Species ◽

Evolutionary Pattern ◽

Environmental Correlates

Abstract Background and Aims Flowering phenology is arguably the most striking angiosperm phenophase. Although the response of species to climate change and the environmental correlates of the communities have received much attention, the interspecific evolution of flowering phenology has hardly been investigated. I explored this in the wind-pollinated dioecious Restionaceae (restios) of the hyperdiverse Cape flora, to disentangle the effects of phylogeny, traits, and biotic and abiotic environments on flowering time shifts. Methods I recorded the flowering times of 347 of the 351 species, mapped these over a 98 % complete phylogeny and inferred the evolutionary pattern and abiotic correlates of flowering time shifts. The patterns and biotic/abiotic correlates of restio community mean flowering time were explored using 934 plots. Key Results Restios flower throughout the year, with large spring and smaller autumn peaks. Species flowering time is evolutionarily labile, poorly explained by either the environment or traits of the species, with half of all sister species allochronic. Community mean flowering time is related to elevation, temperature and rainfall. Conclusions Flowering time shifts may result from assortative mating and allochronic speciation, possibly leading to non-adaptive radiation. However, community mean flowering time may be environmentally selected. Diversification of flowering time may be non-adaptive, but species could be filtered through survival in suitable communities.

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