Responses of dry matter accumulation and partitioning to drought and subsequent rewatering at different growth stages of maize in Northeast China

Cai, Fanfan; Mi, Na; Ming, Huiqing; Zhang, Yushu; Zhang, Hui; Zhang, Shujie; Zhao, Xiangang; Zhang, Bingbing

doi:10.3389/fpls.2023.1110727

Cited by 8 publications

(2 citation statements)

References 58 publications

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“…The tuber fresh weight, tuber volume, tuber number, and theoretical yield of certified seeds were all greater than those of the pre-elite seeds, except for the pre-elite seed of Chuanyu 117, which had a greater number of potatoes per plant than its certified seed. Analysis of variance (Table 4) and Duncan's multiple comparisons showed that tuber Dry matter accumulation is the basis for crop yield formation [22,23], and the dry matter accumulation balance period is a critical period when the potato growth center shifts from above ground to below ground [24]. The root system of potatoes is relatively small, and the root to crown ratio is relatively low [25].…”

Section: Differences In Theoretical Yield and Its Constituent Factors...mentioning

confidence: 99%

Differences in Dry Matter Accumulation and Distribution Patterns between Pre-Elite Seed and Certified Seed of Virus-Free Potato

Fang

et al. 2023

Horticulturae

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Virus-free seed potatoes are generally divided into pre-elite seeds and certified seeds. To study the differences in dry matter accumulation and distribution between pre-elite seeds and certified seeds through a field randomized block two-factor experiment, pre-elite seeds and certified seeds of four varieties were selected to explore the differences in growth characteristics between the two levels of virus-free potatoes and to find a way to improve potato seed expansion efficiency. The results showed that the growth process of pre-elite seeds was slower and the growth period was longer than certified seeds. The dry matter accumulation of pre-elite seeds in various organs was lower than in certified seeds, and the distribution ratio in the roots and stems of each variety was also lower than the certified seed, while there was no significant difference in the leaf and tuber distribution ratio. The average dry matter accumulation rate in both pre-elite and certified seeds was sorted by size of tubers > leaves > stems > roots; however, it was significantly lower in pre-elite seeds than in certified seeds. Tuber fresh weight, tuber volume, tuber number, and the theoretical yield of certified seeds were higher than those of pre-elite seeds. Experiments have shown that appropriately prolonging the harvest time of virus-free potatoes, especially pre-elite seeds, and increasing the proportion of dry matter allocated to roots and stems by pre-elite seeds in the early growth stages can effectively increase yield.

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Section: Differences In Theoretical Yield and Its Constituent Factors...mentioning

confidence: 99%

Differences in Dry Matter Accumulation and Distribution Patterns between Pre-Elite Seed and Certified Seed of Virus-Free Potato

Fang

et al. 2023

Horticulturae

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“…These detrimental effects primarily stem from the negative repercussions of heat stress on photosynthetic activity. Crop development exhibits a positive linear relationship with the net photosynthetic rate [3] influencing dry-matter accumulation [4] and allocation (biomass partitioning) [5,6]. The carbohydrate partitioning through photosynthesis results to constitute 60% of the total dry matter of the plant [7].…”

Section: Introductionmentioning

confidence: 99%

Genotypic Variation Studies in Biomass Partitioning Patterns during Post-flowering Stages under the Late Sown Conditions of Chickpea (Cicer arietinum L.) Germplasm

Vyshnavi,

Samaiya,

Ramakrishnan

et al. 2024

IJECC

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This study conducted during the 2021-2022 year under field conditions investigates the genotypic variation in biomass partitioning among different chickpea genotypes during post-flowering stages, with a specific emphasis on late sown conditions. The main aim of the study was to elucidate the efficiency of resource allocation toward pod production, measured by the pod harvest index. This research enhances understanding of chickpea performance under delayed sowing conditions by examining genotypic variations in key parameters during critical post-flowering stages, specifically pod filling and seed filling. Biomass partitioning in branches and pods varied considerably during both growth stages, with branches playing a crucial role in pod development during pod filling. The transition from pod filling to seed filling stage resulted in increased biomass partitioning in pods, highlighting their importance as storage organs for seed development. Seed yield exhibited significant variability among genotypes, with some surpassing 2000 kg/ha, while pod harvest index ranged from 35.62% to 70.48%, indicating differences in resource allocation efficiency. Regression analysis showed varying degrees of association between biomass partitioning and pod harvest index, with seed yield and pod harvest index, biomass partitioning in pods exhibiting the highest explanatory power during seed filling. By studying the adaptation of plants towards biphasic and allometric allocation patterns during unfavorable conditions can result in developing the resource use efficient climate resilient varieties. These findings contribute to our understanding of crop productivity under varying environmental conditions and inform strategies for optimizing chickpea yield and resilience.

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Harnessing phytohormone dynamics to fortify crop resilience against drought: a comprehensive review

Peer

2024

Vegetos

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Responses of dry matter accumulation and partitioning to drought and subsequent rewatering at different growth stages of maize in Northeast China

Cited by 8 publications

References 58 publications

Differences in Dry Matter Accumulation and Distribution Patterns between Pre-Elite Seed and Certified Seed of Virus-Free Potato

Differences in Dry Matter Accumulation and Distribution Patterns between Pre-Elite Seed and Certified Seed of Virus-Free Potato

Genotypic Variation Studies in Biomass Partitioning Patterns during Post-flowering Stages under the Late Sown Conditions of Chickpea (Cicer arietinum L.) Germplasm

Harnessing phytohormone dynamics to fortify crop resilience against drought: a comprehensive review

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