This study was carried out to assess the growth characteristics of Grewia moll&, Grewia tenax and Grewia villosa under the nursery and field conditions. Two experiments were conducted at the farm of the College of Na...This study was carried out to assess the growth characteristics of Grewia moll&, Grewia tenax and Grewia villosa under the nursery and field conditions. Two experiments were conducted at the farm of the College of Natural Resources and Environmental Studies, University of Juba, Khartoum, Sudan. Randomized complete block design with three replications was used. Morphological and physiological factors were measured. Seedlings height, number of leaves, number of branches and sub-branches were different (P 〈 0.05) among the three species at the nursery stage and under field conditions. Collar diameter showed significant difference among the species under field conditions. Physiological factors exhibited more significant variations in the field than at the nursery stage. Variations in growth characteristics were attributed to genetics differences and different growth habit, while variations in physiological factors (photosynthesis and transpiration rate) were attributed to differences in leaf structure, size and number of stomatal pores.展开更多
Personal ethics are strongly influenced by emotions, particularly secondary emotions, because these emotions expand ethical reasoning and development as the child matures. A well-developed consciousness profoundly inf...Personal ethics are strongly influenced by emotions, particularly secondary emotions, because these emotions expand ethical reasoning and development as the child matures. A well-developed consciousness profoundly influences a person's actions and conduct when solving problems of what is thought, or taught to be, right or wrong Compelling neurological evidence supports the claim that children begin to develop enduring ethical standards at an early age and that these standards are largely based on the experiences of early childhood. Essentially, the innate sense of ethics requires nurturing during infancy before it can be cognitively understood and practiced in maturity. In biological terms, the development of neural networks that regulate emotional growth, and subsequently, the capacity for ethical discrimination, depends on the infant's early social environment. Thus, the toddler's early epigenetic experiences enhance, or impede, its innate still dormant genetic potential. Importantly, personal character development and ethical discrimination begins long before the child's formal educational years. As a consequence, early learning has to discover ways of conserving adaptive thinking which can be applied to the choices that may confront future generations. Early ethics education, including accurate access to scientific, medical, and technological knowledge, is thus critical. Future generations will increasingly require education from a global perspective when making major ethical decisions in areas, such as nuclear technology, disposal of wastes, preservation of biodiversity, global warming, and unregulated human population growth. As long as our culture continues to reflect advances in science and technology, there is an obligation to make science education overlap with crucial periods in the advancement of ethical consciousness. Significantly, when considering the human capacity for excess at times of conflict, it is incumbent on the scientific community to integrate research-based knowledge with wide-ranging learning and problem-solving skills. Bioscience ethics, the established interface bridging applied science and applied bioethics, can assist in this process of integration. To become fully responsible adults, we must share our extraordinary cognitive talents and respect life on earth in all its rich diversity. In biological terms, human uniqueness resides primarily in our brains with its products being co-operation in family and ancestral units, long education, sophisticated language and culture, and importantly, ethical consciousness-all attributes held in trust by knowledge and wisdom for future generations.展开更多
文摘This study was carried out to assess the growth characteristics of Grewia moll&, Grewia tenax and Grewia villosa under the nursery and field conditions. Two experiments were conducted at the farm of the College of Natural Resources and Environmental Studies, University of Juba, Khartoum, Sudan. Randomized complete block design with three replications was used. Morphological and physiological factors were measured. Seedlings height, number of leaves, number of branches and sub-branches were different (P 〈 0.05) among the three species at the nursery stage and under field conditions. Collar diameter showed significant difference among the species under field conditions. Physiological factors exhibited more significant variations in the field than at the nursery stage. Variations in growth characteristics were attributed to genetics differences and different growth habit, while variations in physiological factors (photosynthesis and transpiration rate) were attributed to differences in leaf structure, size and number of stomatal pores.
文摘Personal ethics are strongly influenced by emotions, particularly secondary emotions, because these emotions expand ethical reasoning and development as the child matures. A well-developed consciousness profoundly influences a person's actions and conduct when solving problems of what is thought, or taught to be, right or wrong Compelling neurological evidence supports the claim that children begin to develop enduring ethical standards at an early age and that these standards are largely based on the experiences of early childhood. Essentially, the innate sense of ethics requires nurturing during infancy before it can be cognitively understood and practiced in maturity. In biological terms, the development of neural networks that regulate emotional growth, and subsequently, the capacity for ethical discrimination, depends on the infant's early social environment. Thus, the toddler's early epigenetic experiences enhance, or impede, its innate still dormant genetic potential. Importantly, personal character development and ethical discrimination begins long before the child's formal educational years. As a consequence, early learning has to discover ways of conserving adaptive thinking which can be applied to the choices that may confront future generations. Early ethics education, including accurate access to scientific, medical, and technological knowledge, is thus critical. Future generations will increasingly require education from a global perspective when making major ethical decisions in areas, such as nuclear technology, disposal of wastes, preservation of biodiversity, global warming, and unregulated human population growth. As long as our culture continues to reflect advances in science and technology, there is an obligation to make science education overlap with crucial periods in the advancement of ethical consciousness. Significantly, when considering the human capacity for excess at times of conflict, it is incumbent on the scientific community to integrate research-based knowledge with wide-ranging learning and problem-solving skills. Bioscience ethics, the established interface bridging applied science and applied bioethics, can assist in this process of integration. To become fully responsible adults, we must share our extraordinary cognitive talents and respect life on earth in all its rich diversity. In biological terms, human uniqueness resides primarily in our brains with its products being co-operation in family and ancestral units, long education, sophisticated language and culture, and importantly, ethical consciousness-all attributes held in trust by knowledge and wisdom for future generations.