Overcoming dormancy and determining optimal temperature for slender serradella seed germination

Lopes, Rodrigo Ramos; Souza, Cléber Henrique Lopes de; Bertoncelli, Patrícia; Franke, Lucia Brandão

doi:10.1590/s1806-92902015001200001

Cited by 5 publications

(5 citation statements)

References 23 publications

(24 reference statements)

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…As per the findings Yazdanpanah et al (2012) of a high percentage of germination is achieved through scarification of seeds with sandpaper (65%). The same observations were also made by Sanjana and Jeya (2013); Lopes et al (2015), who reported that the seeds that were mechanically scarified exhibited very high germination percentage compared with any other seed treatment.…”

Section: Germination Percentsupporting

confidence: 81%

A novel approach for improving germination rate of Mucuna bracteata

Ghassan

Saeed

Wahab

2023

TJAS

View full text Add to dashboard Cite

To ascertain the best possible method for deed treatment that would enable germination and seedling growth of Mucuna bracteata, the experiment was carried out at the experimental farm of Institute of sustainable Agro technology, University Malaysia Perlis, Padang Besar, Perlis, Malaysia. The design of the experiment was based on the Completely Randomised Design and it consisted of four replications. The results of the experiment indicated that when the seeds are treated in a blender for 2 minutes, it considerably improves the speed of germination, percentage of germination, mean daily germination, fresh shoot, dry shoot weight, and shoot to root fresh weight ratio. On the other hand, when the seeds were soaked in H2SO4 for 30 minutes, there was an improvement in the total fresh weight, mean germination time, dry root weight and total plant dry weight. When the seeds were treated in a blender for 4 minutes, it substantially improved the germination value, the peak value, and the total number of leaves per plant.

show abstract

Section: Germination Percentsupporting

confidence: 81%

A novel approach for improving germination rate of Mucuna bracteata

Ghassan

Saeed

Wahab

2023

TJAS

View full text Add to dashboard Cite

show abstract

“…This temperature variation is called thermos-inhibition, which is characterized by the absence of germination when the temperature is slightly above the optimum conditions [36]. Germination inhibition by high temperatures (25 • C-30 • C) has been observed in other species, such as Spinacia oleracea L. [17,18], Ornithopus pinnatus [19], and Myrsine parvifolia [20], and the seeds of these three species have also shown higher final germination at temperatures of 15 • C and 20 • C, while significantly lower germination occurred at 25 • C and 30 • C.…”

Section: Responses Of Germination To Temperaturementioning

confidence: 99%

“…For example, either no germination or extremely low germination was observed at 25 • C and 30 • C, while high final germination was obtained when seeds were incubated at lower temperatures of 15 • C and 20 • C for species such as Pinacia oleracea L. [17,18], Ornithopus pinnatus (Mill.) Druce [19], and Myrsine parvifolia A. DC. [20], and coniferous species of Pinus halepensis Miller and Pinus brutia Tenore [21].…”

Section: Introductionmentioning

confidence: 99%

Investigating Seed Dormancy in Pinus bungeana Zucc. ex Endl.: Understanding the Contributions of Enclosing Tissues and Temperature on Germination

Guo

Shen

Shi

2018

Forests

View full text Add to dashboard Cite

Pinus bungeana Zucc. ex Endl. is an endangered conifer tree species that is endemic to Western Central China. With the aim to confirm whether the Pinus bungeana seeds were dormant or not, an isolated embryo was cultured and seed coat interference with imbibition was examined by the water uptake test; the contribution of enclosing structures to germination inhibition and the effect of different temperatures (10 • C, 15 • C, 20 • C, 25 • C, and 30 • C) on seed germination were investigated by the germination test, then total germination percentage (TGP) and mean germination time (MGT) were calculated. Results showed that the Pinus bungeana seeds were non-dormant, seeds without any prechilling treatment germinated readily and achieved high germination (approximately 90%) at favorable temperatures (15 and 20 • C). At 25 • C, seed germination was inhibited and intact seeds exhibited 5% germination, but an interference with imbibition was not responsible for this result. In the seed tissue removal experiment, cracking the seed coat did not improve germination effectively, removing the seed coat and leaving the nucellar membrane either intact or having a quarter of it removed both elicited greater germination (34.7% and 40%, respectively). Meanwhile, removing the seed coat and removing either half or all of the nucellar membrane both promoted higher germination (approximately 80%), with germination rates that were nearly the same as that for the isolated embryos (86%). Germination inhibition was mainly induced by the enclosing structures and the nucellar membrane played an important role in inhibiting germination.

show abstract

“…Moreover, Javaid et al (2010) reported of prolonged seed dormancy in P. hysterophorus with increasing temperature. Lopez et al (2015) reported that the germination process of plant species is generally synchronized within the optimum temperature range. These results indicate that IAPs such P. hysterophorus could enhance its persistence in the environment and opportunity for developing into new invasions by temporal variations in seed germination due to non-synchronized breaking of seed dormancy.…”

Section: Weeds Invasive Alien Plants and Climate Impacts -Implicationsmentioning

confidence: 99%

Effects of Climate Change on Weeds and Invasive Alien Plants in Sri Lankan Agro-Ecosystems: Policy and Management Implications

Marambe

Wijesundara

2021

Front. Agron.

View full text Add to dashboard Cite

Changes in the climate have worsen the problems caused by weeds and invasive alien plants (IAPs) in agro-ecosystems at global scale resulting from their changes in the range and population densities. Over the past six decades, Sri Lanka has experienced a slow but steady increase in annual environmental temperature by 0.01–0.03°C. Increasing extreme events of rainfall, wetter wet seasons, and drier dry seasons are some of the characteristic features of the changes in the climate observed in Sri Lanka over the years. The Ministry of Environment (MOE) in Sri Lanka has established a National Invasive Species Specialist Group (NISSG) in 2012 and adopted the National Policy on Invasive Alien Species (IAS) in Sri Lanka, Strategies and Action Plan in 2016. Further, the MOE has developed and adopted protocols to assess the risk of IAS at pre- and post-entry level to the country while incorporating climate change concerns. Periodic risk assessments have being carried out to prioritize actions against IAS in Sri Lanka. The Ministry of Agriculture as adopted a National Weed Strategy (NWS) and has identified the Weeds of National Significance (WONS) under different priority crops. A study done in 2014 has clearly shown that weed control costs in agricultural lands in several district of Sri Lanka were nearly doubled during the years that experienced El Niño Southern Oscillation (ENSO). Further, studies have clearly indicated that IAPs also survive, expand and impact the continuously disturbed environments in agro-ecosystems. Panicum trichocladum, a species listed as a potential invasive based on the risk assessment done in 2016, has shown an increase in its population density and distribution in Sri Lanka during the last 2–3 years. However, weeds and IAPs in agro-ecosystems have drawn less attention of policy makers, scientists, and practitioners in relation to impact of climate change in island ecosystems. This paper focuses on the scientific evidence reported in agro-ecosystems in Sri Lanka on climate-related impacts on agriculturally important weeds and IAPs, and the efforts made to manage their introduction and spread across the country.

show abstract

Overcoming dormancy and determining optimal temperature for slender serradella seed germination

Cited by 5 publications

References 23 publications

A novel approach for improving germination rate of Mucuna bracteata

A novel approach for improving germination rate of Mucuna bracteata

Investigating Seed Dormancy in Pinus bungeana Zucc. ex Endl.: Understanding the Contributions of Enclosing Tissues and Temperature on Germination

Effects of Climate Change on Weeds and Invasive Alien Plants in Sri Lankan Agro-Ecosystems: Policy and Management Implications

Contact Info

Product

Resources

About