Sugarcane Production under Changing Climate: Effects of Environmental Vulnerabilities on Sugarcane Diseases, Insects and Weeds

Sugarcane is an important crop for bioenergy and sugar, contributing to Gross Domestic Product (GDP) of Pakistan. Global warming and increasing greenhouse gas emission result in the increased intensity and frequency of extreme weather events. Temperature stress is a major environmental stress that limits the sugarcane growth, productivity and metabolism worldwide. Numerous biochemical reactions are involved in plant development, and these biochemical reactions are very sensitive to temperature stress. Now a day, temperature stress is a major concern for sugarcane production and approaches for high yield of sugarcane under temperature stress are important agriculture goals. Sugarcane plant adapts a number of acclimation and avoidance mechanism against different environmental stress. Plant survival under different stresses depends on ability to generate and transmit the signal and biochemical and physiological changes. In future, climate change is an important consequence for sugarcane production in the world because of its relative low adaptive capacity, poor forecasting system and high vulnerable to natural hazard. In this review we briefly describe climate change effects on sugarcane, sugar production in several countries especially in Pakistan, future challenges for sugar production under changing climatic scenario and propose strategies for mitigation negative impacts of climate change

Silene conoidea L.: A Review on its Systematic, Ethnobotany and Phytochemical profile

Silene conoidea L. is a weed commonly grown in subtropical and temperate zone of western Eurasia, and some part of Himalaya. S. conoidea is a small herb height from 20 to 40cm mostly grow as weed in different crops like wheat, barley, mustard, roquette and lentil pea. This is the first attempt to gather utmost information about the species distribution, taxonomy, ethno-medicines, phytochemical analysis, biological activity etc. of Silene conoidea. The present review aim was to collect fragmented information about the species in addition to explore its therapeutic importance in future research opportunities. A total of 100 research articles were reviewed using different sources like; Scopus, web of science, Science direct, google scholar and PubMed. The species are used as multipurpose in different biological activities against microbes, bacteria and as insecticidal. Silene is also important due to high contents of various chemicals compounds. Chemical extracts contain flavones, glycosides, saponins, sterols and glycosides. A research study shows that S. conoidea can be used as an indicator species of gold. Traditional therapeutic values of the species for treating respiratory, antioxidant, anti-diabetic and anticancer are needed to be validated through more research. Ethno-pharmacological and clinical trial research can be subjected for future studies

Drought stress in plants: An overview on implications, tolerance mechanisms and agronomic mitigation strategies

Drought is considered as one of the major limiting factors affecting growth and productivity of crop plants. It severely affects the morphological and physiological activities of the plants and hampers the seed germination, root proliferation, biomass accumulation and final yield of field crops. Drought stress disrupts the biosynthesis of chlorophyll contents, carotene and decreases photosynthesis in plants. It gradually reduces CO2 assimilation rates owing to decrease in stomatal conductance. In addition, drought affects cell membrane stability and disrupts water relations of a plant by reducing water use efficiency. To cope with these situations, plants adopt different mechanisms such as drought tolerance, avoidance and escape. In this review, we discussed about the effects of drought on morphological and physiological characteristics of plants and suggested the different agronomic practices to overcome the deleterious effects of drought stress

Diversity of medicinal plants used as male contraceptives: An initiative towards herbal contraceptives

In the recent era, population control is a global issue as well as national community health concern. Plants are being used as a source of medicines by human beings since ancient time. This study highlights the collection, identification and diversity of medicinal plants concerning their traditional knowledge to get better access to the herbal male contraception. Local informants and traditional health practitioners were consulted for information about the local names, distribution, part used and mode of utilization of the medicinal plant. To select plants with high medicinal uses, different quantitative measurements i.e. Relative Frequency of Citation (RFC), Disease Consensus Index (DCI) and descriptive methods of Jaccard Index (JI) was performed. A total of 100 plant species (used for infertility by the local communities) belonging to 50 families and 91 genera were collected. Jaccard Index results showed that 28 plant species were reported for the first time used as male contraceptives in Pakistan. The frequency of citation (FC) value ranged from 35 to 56. Plants with high Relative frequency of citation (RFC) and Disease Consensus index (DCI) values showed a high consensus for the antifertility among informants and THPs. Our study is focused on the diversity and priority of medicinal plants as male contraceptives.

Impact Evaluation of the Land Record Management Information System in the Punjab Province, Pakistan

The authors gratefully acknowledge financial support from the KDI School of Public Policy and Management throughout this research. The authors are also grateful to KDIS Prof.Jungho Kim and other anonymous reviewers for constructive feedback during the seminar presentation and peer review process. The KDIS alumnus and World Bank professional Mr.Rony Rodrigo Maximiliano Rodríguez-Ramírez has extended a huge support during the analysis of this work and our team is extremely grateful for his contributions

Genome-wide comparative analysis of long-chain acyl-CoA synthetases (LACSs) gene family: A focus on identification, evolution and expression profiling related to lipid synthesis

In plants, Long-chain acyl-CoA synthetases (LACSs) play key roles in activating fatty acids to fatty acyl-CoA thioesters, which are then further involved in lipid synthesis and fatty acid catabolism. LACSs have been intensively studied in Arabidopsis, but its evolutionary relationship in green plants is unexplored. In this study, we performed a comprehensive genome-wide analysis of the LACS gene family across green plants followed by phylogenetic clustering analysis, gene structure determination, detection of conserved motifs, gene expression in tissues and subcellular localization. Our results identified LACS genes in 122 plant species including algae, low land plants (i.e., mosses and lycophytes), monocots, and eudicots. In total, 697 sequences were identified, and 629 sequences were selected because of alignment and some duplication errors. The retrieved amino acid sequences ranged from 271 to 1056 residues and diversified in intron/exon patterns in different LACSs. Phylogenetic clustering grouped LACS gene family into six major clades with distinct potential functions. This classification is well supported by examining gene structure and conserved motifs. Also, gene expression analysis and subcellular localization substantiate with clade division in the phylogeny, indicating that the evolutionary pattern is visible in their functionality. Additionally, experimental analysis of lacs2 mutant validated that LACS2 plays key roles in suberin synthesis. Thus, our study not only provides an evolutionary mechanism underlying functional diversification but also lays the foundation for further elucidation of the LACS gene family

Melatonin Function and Crosstalk with Other Phytohormones under Normal and Stressful Conditions

Melatonin was discovered in plants in the late nineties, but its role, signaling, and crosstalk with other phytohormones remain unknown. Research on melatonin in plants has risen dramatically in recent years and the role of this putative plant hormone under biotic and abiotic stress conditions has been reported. In the present review, we discuss the main functions of melatonin in the growth and development of plants, its role under abiotic stresses, such as water stress (waterlogging and drought), extreme temperature (low and high), salinity, heavy metal, and light-induced stress. Similarly, we also discuss the role of melatonin under biotic stresses (antiviral, antibacterial, and antifungal effects). Moreover, the present review meticulously discusses the crosstalk of melatonin with other phytohormones such as auxins, gibberellic acids, cytokinins, ethylene, and salicylic acid under normal and stressful conditions and reports melatonin receptors and signaling in plants. All these aspects of melatonin suggest that phytomelatonin is a key player in crop improvement and biotic and abiotic stress regulation

Macro-Morphological and Ecological Variation in <i>Rosa sericea</i> Complex

Taxon delimitation and identification are important in many areas of biology, especially in taxonomy and conservation. Taxonomic treatment is required to establish and justify recommendations in conservation biology for the group being considered. Imperfect and controversial taxonomy can undermine conservation assessment. We studied 71 populations; 665 individuals corresponding to the morphology of the Rosa sericea complex (including six taxa, one of which has extremely narrow distributions) were collected from sympatric, parapatric, and allopatric populations distributed in China. This study aims to investigate whether the complex species are macromorphologically different species and evaluate the rare taxa of the complex for conservation priority. The morphological characters and principal component analysis (PCA) of the R. sericea complex showed that the complex species have overlapping characters but can distinguish morphologically. The species of R. sericea complex systematics status based on previous DNA sequencing is controversial. The ecological habitat’s current morphological characters only delimit the R. morrisonensis (in Taiwan). To evade mistakes in species conservation, we recommend that taxonomical knowledge be needed to ensure success in protecting target species. Thus, the complementarity of systemic and conservation assurance makes conservation actions more necessary for the complex’s rare taxa. The ecological niche modelling (ENM) results showed that habitats of these conspecific taxa would be shrunken. With the presence of snapshots in time, the geography of taxa might decrease rapidly in representative entirely of the Geographic space (G-space) and Environmental space (E-space) that such taxa are bright to inhabit. So far, the significant inferences meant for the niche occupy the most incredible comparative research, taking the impermanent nature of taxa distributions and undertaking that such species are at a state of stability. If the artificially identified species (rarely distributed) are based on morphological identification, they must be conserved