Rootstock type influences salt exclusion response of grafted Shiraz under salt treatment at elevated root zone temperature

IF 2.5 3区农林科学 Q3 FOOD SCIENCE & TECHNOLOGY Australian Journal of Grape and Wine Research Pub Date : 2022-03-06 DOI:10.1111/ajgw.12550

R.R. Walker, D.H. Blackmore, J.D. Dunlevy, E.J. Edwards, A.R. Walker

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引用次数: 1

Abstract

Background and Aims

The temperature of the upper soil zone lags but strongly correlates with prevailing air temperature. The effect of root zone (RZ) temperature on shoot salt exclusion is poorly understood. The aim was to gain a better understanding of the effect of RZ temperature on the salt exclusion, growth and stomatal conductance of Shiraz grafted onto a range of rootstock genotypes.

Methods and Results

Glasshouse grown Shiraz on 140 Ruggeri, K51-40 and six K51-40 × 140 Ruggeri hybrid rootstocks were assessed at a cool (mean 19.3°C) and hot (mean 30.8°C) RZ temperature, plus or minus salt treatment of 50 mmol/L chloride with mixed cations. After 28 days, plants were destructively harvested. Chloride concentration in laminae, petioles and roots and cation concentration in laminae and roots were measured. All rootstocks showed enhanced shoot sodium exclusion under salt treatment at the hot RZ temperature demonstrated by significantly lower sodium concentration in laminae and higher concentration in roots. Shoot chloride exclusion capacity of salt-treated K51-40 declined, while that of 140 Ruggeri and two hybrid rootstocks improved at the hot RZ temperature.

Conclusions

Shoot chloride exclusion varied widely among rootstock genotypes subjected to salinity and hot RZ temperature, compared with shoot sodium exclusion, reflecting its control by multiple genes and apparent differential sensitivity to environmental cues.

Significance of the Study

The genetic potential of 140 Ruggeri to enhance shoot sodium and chloride exclusion at elevated RZ temperature was demonstrated, highlighting its potential as a breeding parent for rootstock improvement, to meet anticipated future challenges of rising RZ temperature and salinity.

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提高根区温度下，砧木类型对嫁接设拉子的排盐反应有影响

背景与目的土壤上层区的温度与盛行气温有较强的相关性，但相对滞后。根区温度对茎部排盐的影响尚不清楚。目的是为了更好地了解RZ温度对嫁接到一系列砧木基因型上的设拉子的耐盐性、生长和气孔导度的影响。方法与结果对140 Ruggeri、K51-40和6个K51-40 × 140 Ruggeri杂交砧木在冷(平均19.3°C)和热(平均30.8°C) RZ温度下，外加或负加50 mmol/L氯化物混合阳离子盐处理下的温室栽培设拉子进行了评价。28天后，植物被破坏性地收割。测定了叶片、叶柄和根中的氯离子浓度以及叶片和根中的阳离子浓度。在热RZ温度下，所有砧木在盐处理下均表现出较强的茎部排钠能力，表现为膜层钠浓度显著降低，根部钠浓度显著升高。在热RZ温度下，K51-40的茎部排氯能力下降，而140 Ruggeri和两个杂交砧木的茎部排氯能力提高。结论不同砧木基因型对盐和热RZ温度下茎部氯离子的排斥差异较大，反映了其受多基因控制和对环境因素的明显差异敏感性。研究表明，Ruggeri 140在高RZ温度下提高茎部钠和氯化物排他性的遗传潜力，突出了其作为砧木改良的育种亲本的潜力，以应对预期的未来RZ温度和盐度升高的挑战。

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来源期刊

Australian Journal of Grape and Wine Research 工程技术-食品科技

CiteScore

5.30

自引率

7.10%

发文量

审稿时长

3 months

期刊介绍： The Australian Journal of Grape and Wine Research provides a forum for the exchange of information about new and significant research in viticulture, oenology and related fields, and aims to promote these disciplines throughout the world. The Journal publishes results from original research in all areas of viticulture and oenology. This includes issues relating to wine, table and drying grape production; grapevine and rootstock biology, genetics, diseases and improvement; viticultural practices; juice and wine production technologies; vine and wine microbiology; quality effects of processing, packaging and inputs; wine chemistry; sensory science and consumer preferences; and environmental impacts of grape and wine production. Research related to other fermented or distilled beverages may also be considered. In addition to full-length research papers and review articles, short research or technical papers presenting new and highly topical information derived from a complete study (i.e. not preliminary data) may also be published. Special features and supplementary issues comprising the proceedings of workshops and conferences will appear periodically.