Assessment on Damage Risk of Corn for High Temperature at Reproductive Stage in Summer Season Based on Climate Scenario RCP 8.5 and 4.5

SUMMARYRhizobium strains adapted to high temperature, and genotypes of green gram, were used to study the symbiotic N2-fixation in a summer season at two moisture levels in calcareous soil. Different interactions between strains and genotypes were observedatthe two moisture levels. At both moisture levels, strain S4 with the green gram genotype S8 showed the greatest grain yield, nitrogenase activity, leghaemoglobin and ethanolsoluble carbohydrate of nodules.

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Assessing antioxidant system and yield of maize (Zea mays L.) inbreds under elevated temperature condition

Journal of Phytology ◽

10.25081/jp.2021.v13.7324 ◽

2021 ◽

pp. 146-151

Author(s):

L. Priyanandhini ◽

M. K. Kalarani ◽

A. Senthil ◽

N. Senthil ◽

K. Anitha ◽

...

Keyword(s):

Zea Mays ◽

High Temperature ◽

Elevated Temperature ◽

Temperature Stress ◽

Elevated Temperatures ◽

Zea Mays L ◽

High Temperature Stress ◽

Climatic Conditions ◽

Reproductive Stage ◽

Maize Inbreds

Maize (Zea mays L.) is the most important food and feed crop grown under diverse soil and climatic conditions. Among the cereals, demand for maize is increasing year after year, but fluctuation in climatic conditions especially the temperature extremes is the current and future threat in maize cultivation. Each degree Celsius increase in global mean temperature causes yield reduction up to 7.4 per cent in maize. The high temperature stress impact at the reproductive stage affects grain filling rate and duration. Adaptation of maize crop to future warmer climatic conditions requires a better understanding of physiological responses to elevated temperatures. With this view, a pot culture experiment was conducted at the Department of Crop Physiology, TNAU, Coimbatore during the summer season of 2020. Two maize inbreds viz., UMI 1230 and CBM-DL- 322 were taken for the study and exposed to high temperature stress treatments viz., T1 - ambient, T2 - ambient+4°C and T3 - ambient+6°C (44°C) for 10 days during the reproductive stage to assess the changes in biochemical and yield traits. The ambient+4ºC treatment revealed that the maize inbred line CBM-DL-322 recorded lower malondialdehyde content with over production of antioxidant enzyme activity (superoxide dismutase, catalase and ascorbate peroxidase). Cob weight and seed set parentage showed a negative correlation with both elevated temperatures. It is concluded that the maize inbreds line CBM-DL- 322 performed better at an elevated temperature at ambient+4°C and recorded more cob weight (57.09g) compared to UMI 1230 inbred (43.56g).

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Reliability of Existing Climate Indices in Assessing the Freeze-Thaw Damage Risk of Internally Insulated Masonry Walls

Buildings ◽

10.3390/buildings11100482 ◽

2021 ◽

Vol 11 (10) ◽

pp. 482

Author(s):

Sahar Sahyoun ◽

Hua Ge ◽

Michael A. Lacasse ◽

Maurice Defo

Keyword(s):

Risk Assessment ◽

Risk Index ◽

Climate Scenario ◽

Evaluation Methodology ◽

Climate Indices ◽

Moisture Index ◽

Climatic Index ◽

Actual Performance ◽

Freeze Thaw ◽

Damage Risk

This paper evaluates the reliability of the currently used climate-based indices in selecting a moisture reference year (MRY) for the freeze-thaw (FT) damage risk assessment of internally insulated solid brick walls. The evaluation methodology compares the ranking of the years determined by the climate-based indices and response-based indices from simulations, regarded as actual performance. The hygrothermal response of an old brick masonry wall assembly, before and after retrofit, was investigated in two Canadian cities under historical and projected future climates. Results indicated that climate-based indices failed to represent the actual performance. However, among the response-based indices, the freeze-thaw damage risk index (FTDR) showed a better correlation with the climate-based indices. Additionally, results indicated a better correlation between the climatic index (CI), the moisture index (MI), and FTDR in Ottawa; however, in Vancouver, a better fit was found between MI and FTDR. Moreover, the risk of freeze-thaw increased considerably after interior insulation was added under both historical and projected future climates. The risk of FT damage would increase for Ottawa but decrease for Vancouver under a warming climate projected in the future, based on the climate scenario used in this study. Further research is needed to develop a more reliable method for the ranking and the selection of MRYs on the basis of climate-based indices that is suitable for freeze-thaw damage risk assessment.

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Studies on the periodicity of chlorophyceae of Jait Sagar lake, Bundi (Rajasthan)

South Asian Journal of Experimental Biology ◽

10.38150/sajeb.4(5).p232-239 ◽

2015 ◽

Vol 4 (5) ◽

pp. 232-239

Author(s):

Dilip Kumar Rathore ◽

Preeti Sharma ◽

Harsh Kumar Sumeria

Keyword(s):

High Temperature ◽

Rapid Development ◽

Summer Season ◽

Algal Population

The Chlorophyceae periodicity of Jait Sagar lake had been studied during Jan 2013 to Dec 2013. A total number of 44 species belonging to 15 genera of Chlorophyceae class were identified. Some of common genera belonging to Chlorophyceae of Jait Sagar lake were Pediastrum, Scenedesmus, Cosmari-um, Spirogyra, Closterium etc. The occurrence of algae varied in different study areas in various months. Scenedesmus showed a maximum popula-tion. Some species were common to all the seasons while others were repre-sented only at a particular season. The algal population was found to be maximum in summer season and the lowest in winter. Water becomes greenish due to population of Microalgae such as Pediastrum, Scenedesmus, Cosmarium and Closterium during May-October. Seasonal successions of phytoplankton are affected by strong seasonal ecological influences. In the present investigation it was observed that high temperature and pH were favourable for rapid development of Chlorophyceae.

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EFFECT OF ROOTSTOCKS ON THE TOLERANCE TO HIGH TEMPERATURE OF EGGPLANTS UNDER SOLAR GREENHOUSE DURING SUMMER SEASON

Acta Horticulturae ◽

10.17660/actahortic.2007.761.49 ◽

2007 ◽

pp. 357-360 ◽

Cited By ~ 9

Author(s):

S. Wang ◽

R. Yang ◽

J. Cheng ◽

J. Zhao

Keyword(s):

High Temperature ◽

Summer Season ◽

Solar Greenhouse

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Study of Summer Season High Temperature Events in Busan

Journal of Environmental Science International ◽

10.5322/jes.2007.16.5.593 ◽

2007 ◽

Vol 16 (5) ◽

pp. 593-602

Author(s):

Kwi-Ok Lee ◽

Hyun-Ju Lee ◽

Hwa-Woon Lee

Keyword(s):

High Temperature ◽

Summer Season

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Impact of Climate Change on Water Resources Availability in a Trans-Boundary Basin in West Africa: Case of Sassandra

10.20944/preprints201801.0151.v1 ◽

2018 ◽

Author(s):

Naga Coulibaly ◽

Talnan Jean Honoré Coulibaly ◽

Ziyanda Mpakama ◽

Issiaka Savané

Keyword(s):

Climate Change ◽

Water Resources ◽

West Africa ◽

Hydrological Modeling ◽

Climate Scenario ◽

Impact Of Climate Change ◽

Abdus Salam ◽

Rcp 8.5 ◽

The Impact ◽

Annual Discharge

In the context of climate change in West Africa characterized by a reduction of precipitation, this study was conducted to evaluate the impact of climate change on water resources from now to the end of the 21st century in the transboundary watershed of the Sassandra River shared by Guinea and Côte d’Ivoire. Historical and future climate (Representative Concentration Pathways or RCPs 4.5 and 8.5 scenarios) data were projected with the model. The Abdus Salam ICTP RegCM4 was used. The hydrological modeling of the river basin was carried out with the conceptual hydrological model, GR2M. This model is a monthly time steps model that allows the assessment of the discharge of the Sassandra River for each climate scenario according to the 2030 (2021–2040), 2050 (2041–2060), 2070 (2061–2080), and 2090 (2081–2100) horizons. The results showed a reduction of the annual discharge when compared to the baseline (1961–1980). For the RCP 4.5, the observed values went from –1.2% in 2030 to –2.3% in 2070 and rose to –2.1% in 2090. Concerning the RCP 8.5, we saw a variation from –4.2% to –7.9% in the 2030 and 2090 horizons, respectively. With the general decrease of rainfall in West Africa, it is appropriate to assess the impact on water resources on the largest rivers (Niger, Gambia, and Senegal) that irrigate the Sahelo-Saharian zone.

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Yield of aerobic rice affected by high temperature stress during summer season -A study from red and laterite zone of West Bengal, India

Journal of Applied and Natural Science ◽

10.31018/jans.v5i2.339 ◽

2013 ◽

Vol 5 (2) ◽

pp. 394-396 ◽

Cited By ~ 1

Author(s):

K. Jana ◽

G. K. Mallick ◽

S. Ghosh

Keyword(s):

High Temperature ◽

Grain Yield ◽

Management Practices ◽

West Bengal ◽

Sandy Loam ◽

Summer Season ◽

Research Station ◽

Aerobic Rice ◽

Flowering Period ◽

Spikelet Sterility

Field experiment on the performance of aerobic direct seeded rice (ADSR) under red and laterite zone of West Bengal was conducted at Rice Research Station, Bankura, West Bengal, India during summer season, 2012. The experimental soil was sandy loam with acidic in nature (pH: 5.2). The results exhibited that the grain yield (1 t ha-1) of rice in aerobic situation was low. This might be due to high atmospheric temperature during flowering period, which results in poor grain setting in panicle and most of them became chaffy due to spikelet sterility. Ultimately, it produced low grain yield of rice in aerobic situation during summer season due to high temperature at flowering period, grain formation and grain ripening stages. Thus, aerobic rice system of cultivation needed good management practices.

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Future methane, hydroxyl, and their uncertainties: key climate and emission parameters for future predictions

Atmospheric Chemistry and Physics ◽

10.5194/acp-13-285-2013 ◽

2013 ◽

Vol 13 (1) ◽

pp. 285-302 ◽

Cited By ~ 112

Author(s):

C. D. Holmes ◽

M. J. Prather ◽

O. A. Søvde ◽

G. Myhre

Keyword(s):

Water Vapor ◽

Radiative Forcing ◽

Stratospheric Ozone ◽

Climate Scenario ◽

Parametric Model ◽

Anthropogenic Emissions ◽

Climate Feedbacks ◽

Methyl Chloroform ◽

Sensitivity Tests ◽

Rcp 8.5

Abstract. Accurate prediction of future methane abundances following a climate scenario requires understanding the lifetime changes driven by anthropogenic emissions, meteorological factors, and chemistry-climate feedbacks. Uncertainty in any of these influences or the underlying processes implies uncertainty in future abundance and radiative forcing. We simulate methane lifetime in three chemical transport models (CTMs) – UCI CTM, GEOS-Chem, and Oslo CTM3 – over the period 1997–2009 and compare the models' year-to-year variability against constraints from global methyl chloroform observations. Using sensitivity tests, we find that temperature, water vapor, stratospheric ozone column, biomass burning and lightning NOx are the dominant sources of interannual changes in methane lifetime in all three models. We also evaluate each model's response to forcings that have impacts on decadal time scales, such as methane feedback, and anthropogenic emissions. In general, these different CTMs show similar sensitivities to the driving variables. We construct a parametric model that reproduces most of the interannual variability of each CTM and use it to predict methane lifetime from 1980 through 2100 following a specified emissions and climate scenario (RCP 8.5). The parametric model propagates uncertainties through all steps and provides a foundation for predicting methane abundances in any climate scenario. Our sensitivity tests also enable a new estimate of the methane global warming potential (GWP), accounting for stratospheric ozone effects, including those mediated by water vapor. We estimate the 100-yr GWP to be 32, which is 25% larger than past assessments.

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