Exploring the Ratooning Potential of Sugarcane (Saccharum officinarum L.) Genotypes under Varying Harvesting Times of Plant Crop

Hassan, Mohamed H.; Fiaz, Naeem; Mudassir, Muhammad Akhlaq; Yasin, Muhammad

doi:10.17582/journal.pjar/2017.30.3.303.309

Cited by 9 publications

(5 citation statements)

References 0 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Gomathi et al (2013) found a 17% decline in the average stalk population in the first ratoon in the tropical region of India, resulting in a 27.38% yield reduction. The shoot population strongly influences ratoon yield after harvest (Hassan et al, 2017) and stalk weight (Palachai et al, 2019). The lower result is associated with increasing the number of ratoons; this is related to a decrease in yield components (Hase, 2019;Masri & Amien, 2015).…”

Section: Kg)mentioning

confidence: 99%

Yields of Promising Sugarcane Clones under Three Different Planting Arrangements

Riajaya¹,

Djumali²,

Heliyanto³

2022

Agrivita.J.Agr.Sci

View full text Add to dashboard Cite

A field experiment was conducted at Kediri, East Java, to examine the influence of row spacing on the yield of five promising clones from August 2018-June 2020. The investigation was of a Split-Plot design with three replications. The main plot consisted of three planting arrangements: SR, single row spacing at 110 cm, DR1, double rows spacing 50+135 cm, and DR2, double rows spacing 50+170 cm. Sub-plots consisted of five promising clones and one check variety: MLG 5, MLG 9, MLG 14, MLG 52, MLG 55, and PS 881. The results suggest no overall significant effect of planting arrangement on sugar yield, though clones may vary. There are significant differences in yield between some clones. Wider rows, DR2, show the highest yield in tonnes of cane per hectare (TCH) in PC (153.94 t/ha) with a slight decrease (14%) in RC-1 due to reduced plant population. Sugar yield in tonnes of sugar per hectare (TSH) in various planting arrangements ranges from 12.26-13.99 t/ha in PC and 10.68-11.93 t/ha in RC-1. MLG 9 can be released as a new variety with high cane and sugar yields.

show abstract

Section: Kg)mentioning

confidence: 99%

Yields of Promising Sugarcane Clones under Three Different Planting Arrangements

Riajaya¹,

Djumali²,

Heliyanto³

2022

Agrivita.J.Agr.Sci

View full text Add to dashboard Cite

show abstract

“…Therefore, increasing sugarcane productivity and yield improves crystal production. Hassan et al (2017) and Khan et al (2021) show a positive correlation between crystal production, sugarcane productivity, and yield.…”

Section: Finding and Discussion Plant Growthmentioning

confidence: 94%

Clone Characteristics Of Sil 04, 6535, Ps 881, And Bululawang Polycross

Yulaikah¹,

Djumali²,

Herwati³

et al. 2023

International Journal of Science, Technology & Management

View full text Add to dashboard Cite

Indonesia’s sugar productivity is low and requires improvement. Producing new superior sugar varieties may increase sugar productivity. In 2019, a polycross between female SIL 04 and male 6535, PS 881, and Bululawang made 11 potential clones. Therefore, it is necessary to determine each clone's characteristics. This research aimed to determine superior clones that generate higher crystal production than the female parents. The research location was the Agricultural Technology Research and Assessment Installation (Instalasi Penelitian dan Pengkajian Teknologi Pertanian - IP2TP) Karangploso from December 2020 until November 2021. The clones and female parents (SIL 04) were arranged in a Randomized Block Design using 2 replications. The research result showed that 9 clones (MLG 19/P6/1, MLG 19/P6/4, MLG 19/P6/5, MLG 19/P6/6, MLG 19/P6/8, MLG 19/P6/9, MLG 19/P6/11, MLG 19/P6/13 and MLG 19/P6/16) produced more crystals (7.07-12.95 t/ha) than the female parents (5.82 t/ha). To sum up, increasing sugarcane productivity improves crystal yields.

show abstract

“…Generally, most of the reactive oxygen species ( 1 O 2 , O 2− , OH − , and H 2 O 2 ) generated in every plant cell from various metabolic processes act as signaling molecules in various physiological mechanisms ( Hassan et al., 2017 ). Excessive levels of ROS in the cells degrade DNA, proteins, and lipids and consequently disturb the activities of the photosynthetic apparatus, cellular metabolic enzymes, and cell membrane integrity ( Yu et al., 2011 ).…”

Section: Adaptive Strategies Of Halophytesmentioning

confidence: 99%

Halophytes as new model plant species for salt tolerance strategies

et al. 2023

View full text Add to dashboard Cite

Soil salinity is becoming a growing issue nowadays, severely affecting the world’s most productive agricultural landscapes. With intersecting and competitive challenges of shrinking agricultural lands and increasing demand for food, there is an emerging need to build resilience for adaptation to anticipated climate change and land degradation. This necessitates the deep decoding of a gene pool of crop plant wild relatives which can be accomplished through salt-tolerant species, such as halophytes, in order to reveal the underlying regulatory mechanisms. Halophytes are generally defined as plants able to survive and complete their life cycle in highly saline environments of at least 200-500 mM of salt solution. The primary criterion for identifying salt-tolerant grasses (STGs) includes the presence of salt glands on the leaf surface and the Na+ exclusion mechanism since the interaction and replacement of Na+ and K+ greatly determines the survivability of STGs in saline environments. During the last decades or so, various salt-tolerant grasses/halophytes have been explored for the mining of salt-tolerant genes and testing their efficacy to improve the limit of salt tolerance in crop plants. Still, the utility of halophytes is limited due to the non-availability of any model halophytic plant system as well as the lack of complete genomic information. To date, although Arabidopsis (Arabidopsis thaliana) and salt cress (Thellungiella halophila) are being used as model plants in most salt tolerance studies, these plants are short-lived and can tolerate salinity for a shorter duration only. Thus, identifying the unique genes for salt tolerance pathways in halophytes and their introgression in a related cereal genome for better tolerance to salinity is the need of the hour. Modern technologies including RNA sequencing and genome-wide mapping along with advanced bioinformatics programs have advanced the decoding of the whole genetic information of plants and the development of probable algorithms to correlate stress tolerance limit and yield potential. Hence, this article has been compiled to explore the naturally occurring halophytes as potential model plant species for abiotic stress tolerance and to further breed crop plants to enhance salt tolerance through genomic and molecular tools.

show abstract

Exploring the Ratooning Potential of Sugarcane (Saccharum officinarum L.) Genotypes under Varying Harvesting Times of Plant Crop

Cited by 9 publications

References 0 publications

Yields of Promising Sugarcane Clones under Three Different Planting Arrangements

Yields of Promising Sugarcane Clones under Three Different Planting Arrangements

Clone Characteristics Of Sil 04, 6535, Ps 881, And Bululawang Polycross

Halophytes as new model plant species for salt tolerance strategies

Contact Info

Product

Resources

About