Impact of red : far red ratios on germination of temperate forest herbs in relation to shade tolerance, seed mass and persistence in the soil

Jankowska-Błaszczuk, Małgorzata; Daws, Matthew I.

doi:10.1111/j.1365-2435.2007.01328.x

Cited by 133 publications

(113 citation statements)

References 41 publications

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“…This is the case for the weed species that produce seeds that are photoblastic positive, that is, need light to germinate, such as Amaranthus retroflexus [53], Eclipta alba [54], Hyptis suaveolens [55], Digitaria spp. [56], Urtica dioica [57], Ageratum conyzoides [23,58], Fimbristylis autumnalis [23] and Cyperus aggregatus [59].…”

Section: Mulchingmentioning

confidence: 99%

Weed Seedbank in Rice Fields

Mesquita¹

2017

Advances in International Rice Research

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The weed seedbank in the soil is the major source of weeds in rice fields. Therefore, information on ecological aspects of weeds occurring in rice, including their potential seed production, is crucial for weed management. The size of the weed seedbank in rice fields is highly variable depending on the climate, relief position, soil moisture content, depth of sampling, history of the areas and management practices used by farmers. As a survival strategy, colonization and persistence in the communities, most common weeds in rice fields produce huge number of seeds and vegetative propagules with physical and physiological dormancy mechanisms, insuring seed viability in the soil for long periods. A large proportion of weed seedbank remains generally on or close to the soil surface after seed rain. Sampling protocols involve the use soil cores at variable soil depths. Determination of the size of the weed seedbank can be made by seed direct extraction and germination methods. The latter is more precise with respect to enumeration of viable seeds in the soil. Weed management in rice fields should focus on methods suitable to decrease the weed population in the soil seedbank.

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Section: Mulchingmentioning

confidence: 99%

Weed Seedbank in Rice Fields

Mesquita¹

2017

Advances in International Rice Research

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“…Since light can only penetrate a few millimeters from the top of the soil surface, seeds found below this depth do not germinate; and even in dark-requiring species, those seedlings would die before reaching the soil surface, especially if they are small owing to the smaller seedling size (see below). Data on other ecosystems suggest that seeds that are smaller are more likely to require light for germination than larger seeds (Milberg et al, 2000;Jankowska-Blaszczuk and Daws, 2007). In a recent study, Wu et al (2013 ) found a similar pattern in alpine species of Qinghai-Tibetan Plateau.…”

Section: Light Requirementmentioning

confidence: 54%

Towards an Understanding of Factors Controlling Seed Bank Composition and Longevity in the Alpine Environment

2015

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“…We found elaiosome effects to be highly variable and detected statistically significant differences between S. canadensis seed populations (±elaiosome) in only one instance, perhaps because we considered seedling emergence across the entire annual temperature cycle and accounted for mortality and dormancy in seed populations (also see Christian and Stanton 2004;Martins et al 2009). Although light was not evaluated in this study, photoblastic germination is unlikely since seedlings emerged in packets buried belowground, and the seed mass for each species exceeded the threshold (1.5 mg) for light-dependent germination observed in other temperate forest herbs (Jankowska-Blaszczuk and Daws 2007).…”

Section: Discussionmentioning

confidence: 99%

Variation in dormancy and germination in three co-occurring perennial forest herbs

Albrecht

McCarthy

2011

Plant Ecol

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Mesic deciduous forest herbs often disperse seed with morphophysiological dormancy (MPD) that prevents germination during unfavorable periods for seedling survival. However, for seeds of some species with MPD, seasonal separation of root and shoot emergence and variation in dormancy levels can complicate interpretation of seedling emergence timing in the field. We tested whether dormancybreak and germination requirements differed among co-occurring perennial forest herbs, Actaea racemosa, Hydrastis canadensis, and Sanguinaria canadensis, which are wild-harvested for their medicinal properties and known to have MPD. Seeds of all species exhibited a summer ? autumn ? winter requirement for seedling emergence in spring. However, species differed in seed-bank persistence due to variation in primary dormancy levels and stratification requirement of seeds. A. racemosa and H. canadensis can form short-term persistent seed bank, whereas S. canadensis can form a long-term persistent seed-bank, regardless of whether elaiosomes were removed from seeds prior to burial. A. racemosa seeds are dispersed in autumn with weak physiological dormancy, as seeds germinated to high rates at 15/6°C after 8 weeks. In contrast, most seeds of the summer dispersed species, H. canadensis and S. canadensis, require summer temperatures to overcome physiological dormancy. Consequently, seedling emergence is reduced and delayed by 1 year if seeds are not sown immediately following the period of natural dispersal. Seedling emergence was much lower in the field than in controlled conditions for all species, especially in the small-seeded A. racemosa. Interspecific variation in dormancy levels and germination traits must be considered when establishing populations for conservation purposes and in understanding recruitment limitation in perennial forest herbs.

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Impact of red : far red ratios on germination of temperate forest herbs in relation to shade tolerance, seed mass and persistence in the soil

Cited by 133 publications

References 41 publications

Weed Seedbank in Rice Fields

Weed Seedbank in Rice Fields

Towards an Understanding of Factors Controlling Seed Bank Composition and Longevity in the Alpine Environment

Variation in dormancy and germination in three co-occurring perennial forest herbs

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