Forests of Jordan are located in the northern and southern parts of the country with 60% and 40%, respectively. Natural forests constitute about 75% in the northern part and 25% in the southern part. ...There are many types of forest trees in Jordan including pines (Pinus spp.), juniper (Juniperus), cypress (Cupressus), oak (Querus), acacia (Acacia), and Christ's thorn jujube (Ziziphus). There are three species of Pinus: P. halopensis (native), P. pinea (introduced), and P. canariensis (introduced) (Ministry of Agriculture, 2013). P. pinea is considered one of the most important components of Jordan's natural forests. Due to its adaptability, lack of environmental requirements and ease of cultivation, its cultivation has been expanded in all parts of Jordan. P. pinea cultivation prevent soil erosion and combating desertification. P. pinea seeds are used in making sweets and many popular foods. In the end of 2019, wilting and damping-off symptoms were noticed in 50 % of P. pinea seedlings nurseries (personal communication, November 2019). Six-month old P. pinea seedlings with visible symptoms of damping-off were collected between May and July 2020 from a pine nursery located in Amman Province, Jordan (32° 0' 40.4316″ N, 135° 52' 20.3628″ E). Thirty-two seedlings with different severities of the disease were selected for the isolation of root pathogens. Two root samples from each seedling were surface-sterilized using 1% sodium hypochlorite for 3 - 5 minutes and then rinsed with sterile distilled water. Root samples were subsequently cut into small pieces (1- to 2 cm long sections) and then placed on potato dextrose agar (PDA) supplemented with 5 mg/L streptomycin sulphate. Petri dishes were incubated in a growth chamber at 25±2°C for seven days and sub-cultured by hyphal tipping. The cultural and conidial morphology of 7-day old mycelia were observed for the isolates using an optical microscope (LEICA, ICC50 HD, Switzerland). For morphological identification of Fusarium, 200 measurements of microconidia, macroconidia and chlamydospores were conducted. The Fusarium isolates had a color of purple-violet mycelium growth in a PDA culture medium (Figure 1 A and B). Macroconidia had 3-5 septa with a foot- shaped basal cell. They were sickle-shaped, hyaline, and thin-walled with dimensions of 20-42 x 3.2-5.5 μm (Figure 1C). Microconidia were short, elliptic to oval unicellular, and with sharp unbranched monophyalides with an average dimension of 5.0-17.0×2.3-5.1 μm (Figure 1D, 1E). Older mycelia developed a large number of terminal chlamydospores (7.2 to 14.1 µm) that were intercalary and rough-walled (Figure 1F). All the characteristics agreed with those recorded by Leslie et al. (2006) and Nelson et al. (1983) for Fusarium oxysporum. Representative isolate (FoxypineJO2020-01) was selected for molecular identification. The DNA was extracted, amplified using the translation elongation factor 1-α (EF1α) gene (EF1/EF2) (O'Donnell et al., 1998), and sequenced at Macrogen Inc, South Korea. Forward and reverse sequences were received, assembled and consensus sequence was produced using BioEdit sequence alignment editor (Hall, 1999). The consensus sequence was BLASTn on the NCBI website (https://www.ncbi.nlm.nih.gov) and was 100% similar with F. oxysporum accession KC622308.1. Phylogenetic analysis was conducted using MEGA 7.0.26 (Kumar et al. 2016) with 1000 bootstrap values and correlated the representative isolate with the accession KC622308.1 (Figure 2). The isolated sequence was deposited in the GenBank and accession number was assigned (MW057934). Koch's postulates were fulfilled using FoxypineJO2020-01 isolate to confirm the Fusarium oxysporum as the causal agent of Pinus pinea damping-off. One-month-old seedlings of P. pinea were soaked in spore suspension of 1 × 106 spores/ml for 10 minutes. Seedlings were placed in 25cm x 20cm deep plastic pots filled with a sterile mixture of peat moss, perlite, and vermiculite (60:20:20). Controlled by thirty seedlings of P. pinea soaked in distilled water. Planted seedlings were incubated at 25 ± 2°C with a 12: 12 hrs light/dark period. Seedlings of P. pinea inoculated with spores gradually showed symptoms similar to those of naturally diseased infected plants (Figure 3, 4). The inoculated pathogen was successfully re-isolated from roots of the diseased seedlings. The uppermost leaves began to wilt (Figure 4c), and the roots had darkened at 25 days after inoculation (Figure 4d). By 40 days after inoculation, the entire seelings were discolored and dead (Figure 4e). Furthermore, the roots became dark and peeled (Figure 4f). These symptoms matched those described by (Machón et al., 2009) and (Luo and Yu 2020). Control P. pinea seedlings remained asymptomatic (Figure 4a, b). To our knowledge, this is the first report of F. oxysporum on P. pinea in Jordan. No previous disease notes were reported on P. pinea seedlings in Jordan. The pathogen can cause significant economic losses to P. pinea as well as to other types of Pinus spp. whether in nurseries or forests in Jordan. Therefore, for disease control in nurseries, it is extremely important to determine the onset time, decrease the incidence (Gordon et al. 2015) and identify the infection source (Morales-Rodriguezv et al. 2018). Future surveys need to be conducted on forest trees in selected forest and biosphere reserves that show tree decline to identify major forest fungal pathogens in Jordanian forests.
Abstract The aim of the present work was to evaluate and analyze the growth and mineral nutrition response of stone pine (Pinus pinea L.) seedlings, an economically important forest species. We ...analyzed the salinity effects on the kinetics of growth, development, and absorption of nutrients of plants cultivated under controlled conditions on a solid organic substrate. Pinus pinea plants were able to tolerate 25 mM NaCl concentration without reduced growth compared to the non-saline control. However, the salt concentration of 50 mM significantly affected the seedling growth after two weeks of treatment. Root growth activity was decreased more than the aerial parts at applied NaCl concentrations. On the other hand, seedlings restricted the transport of Na+ ions to the aerial parts and were strongly selective in favour of K+ ions. The presence of NaCl in the culture medium decreased the absorption rate and the export of K+ and Na+ ions to the aerial parts. This was reflected in the accumulation way of these two ions in the whole plant.
Resumo O objetivo do presente trabalho foi avaliar e analisar a resposta de crescimento e nutrição mineral de mudas de pinheiro-manso (Pinus pinea L.), uma espécie florestal economicamente importante. Analisamos os efeitos da salinidade na cinética de crescimento, desenvolvimento e absorção de nutrientes de plantas cultivadas sob condições controladas em substrato orgânico sólido. As plantas de P. pinea foram capazes de tolerar a concentração de 25 mM de NaCl sem redução do crescimento em comparação com o controle não salino. No entanto, a concentração de sal de 50 mM afetou significativamente o crescimento das plântulas após duas semanas de tratamento. A atividade de crescimento das raízes foi mais reduzida do que as partes aéreas nas concentrações de NaCl aplicadas. Por outro lado, as plântulas restringiram o transporte de íons Na+ para a parte aérea e foram fortemente seletivas em favor dos íons K+. A presença de NaCl no meio de cultura diminuiu a taxa de absorção e a exportação de íons K+ e Na+ para as partes aéreas. Isso se refletiu na forma de acúmulo desses dois íons em toda a planta.
Active components from natural sources are the current focus in most pharmacological research to provide new therapeutic agents for clinical use. Essential oils from the Pinus species have been ...traditionally used in medicine. This study aimed to investigate the chemical profile of two Pinus species, Pinus halepensis L. and Pinus pinea Mill, from different altitudes in Libya and study the effect of environmental conditions on the biological activities of essential oils. A clevenger apparatus was used to prepare the essential oils by hydrodistillation. Analyses were done using GC/MS. Anthelmintic and antimicrobial activities were tested against the earthworm Allolobophora caliginosa, gram-positive bacteria, gram-negative bacteria, and fungi. Different chemical profiles were observed among all tested essential oils, and terpenes were the most dominant class. All studied essential oils from the Pinus species exhibited a remarkable anthelmintic activity compared to the standard piperazine citrate drug. Pinus halepensis from both altitudes showed broad-spectrum antimicrobial activity against all tested microorganisms, while Pinus pinea was effective against only Escherichia coli. From these findings, one can conclude that there are variations between studied species. The essential oil compositions are affected by environmental factors, which consequently affect the anthelmintic and antimicrobial activity.
Full text
Available for:
IZUM, KILJ, NUK, PILJ, PNG, SAZU, UL, UM, UPUK
•Growth and allometry of P. pinea individual trees are enhanced in mixed stands.•Under current climate overyielding in mixed P. pinea forests is not observed.•Ecosystem services supply from P. pinea ...forests is threatened under climate change.•Mixing P. pinea reduces the impact of climate change on ES provision.
Forecasted scenarios of climate change are expected to result in a dramatic reduction in the provision of Ecosystem Services (ES) from forests. Increasing tree species diversity has been proposed as a measure for adapting forests and warrantee the provision of services, since mixed forests, if compared with monospecific forests, are expected to be more productive, resilient and stable facing disturbances. In the present work we use a modelling approach in order to quantify the provision of different ES under expected climate scenarios, comparing pure forests of Pinus pinea L. with mixed forests where the species grows accompanied by different Quercus and Juniperus species. To this aim we first adapted the existing individual tree level model PINEA2, originally constructed for pure even-aged stands of P. pinea, in order to consider the interspecific interactions acting in mixed forests. In a second step we used the so adapted model for forecasting and comparing the provision of different ES – focusing on stocking, growth, yield, CO2 fixation, economic income and structural diversity – under current climate and expected scenarios RCP 4.5 & 8.5. Our results indicate that although growth and allometry in P. pinea trees is enhanced in mixtures, this effect is currently counterbalanced by the expected reduction in growth in the species occupying the understorey, thus under current climate conditions little differences due to composition are observed in the provision of ES. On the other hand, our simulations point to a generalized decrease in the ES supply under more severe climate change scenarios, being this reduction mitigated – at least in part - in mixed P. pinea forests, which are more competitive under the most restrictive environmental conditions. As a consequence, the promotion of mixtures by under-planting and/or releasing of pre-existing advanced regeneration of complementary species may be postulated as a management concept for adapting these forests to climate change.
Full text
Available for:
GEOZS, IJS, IMTLJ, KILJ, KISLJ, NLZOH, NUK, OILJ, PNG, SAZU, SBCE, SBJE, UILJ, UL, UM, UPCLJ, UPUK, ZAGLJ, ZRSKP
Understanding the combined effects of soil amendments and inoculation of mycorrhizal fungi on the response of different plant species during the phytostabilization process of trace elements ...contaminated soils is a challenge. This task is more difficult but more realistic when studied under field conditions. We assess the combined effects of two amendment doses and mycorrhizal inoculation on the response of saplings of two tree species planted in a contaminated field. The amendments were a mix of sugar beet lime and biosolid compost. The inoculation treatments were made with a commercial inoculum of arbuscular mycorrhizal fungi for wild olive and ectomycorrhizal fungi for stone pine. Results showed a weak or null effect of the mycorrhizal inoculation on plant growth, survival and trace element accumulation. There was a significant increase on P nutrition for stone pine, growing on non-amended conditions. Soil amendments were very effective reducing trace elements availability and their accumulation in both plant species, especially in roots. However, the effects on plant biomass were species-dependent and contrasted; low-dose amendments increased the biomass of wild olive by 33.3%, but reduced by 28% that of pine. The high doses of amendments (60 T ha−1) produced some negative effects on plant growth and nutrition, probably related to the increase of soil salinity. Both plant species, stone pine and wild olive, have been proved to be adequate for phytostabilization of contaminated soils under Mediterranean climate, due to their drought tolerance and the low transfer of trace elements from root to shoot, thus reducing toxicity for the food web. To implement microbial-assisted phytoremediation approaches, a better understanding of the diversity and ecology of plant-associated microorganisms is needed. The use of indigenous fungi, locally adapted and tolerant to contamination, would be more suitable for phytostabilization purposes.
Display omitted
•The effects of inoculation on plant growth, survival and trace elements were weak.•Amendments were effective reducing trace elements in plants, especially in roots.•High doses of amendments may produce some negative effects on plant development.•In general, field experiments of amendments and mycorrhizal inoculation are more realistic.
Full text
Available for:
GEOZS, IJS, IMTLJ, KILJ, KISLJ, NLZOH, NUK, OILJ, PNG, SAZU, SBCE, SBJE, UILJ, UL, UM, UPCLJ, UPUK, ZAGLJ, ZRSKP
By-products from the wax production process from carnauba palm (leaves), from the extraction of oil from macauba seeds (endocarp) and from pine nut production (shell) have been assessed for activated ...carbon production, using H3PO4 or CaCl2 for their chemical activation. The resulting activated charcoals have been thoroughly characterized by elemental and thermal analysis, X-ray diffraction, infrared spectroscopy, electron scanning microscopy and N2 adsorption behavior. Subsequently, their adsorption capacity for the removal of rhodamine B (RhB) from aqueous solutions has been evaluated by studying different parameters: contact time, pH, adsorbent dose, initial dye concentration and solution temperature. The adsorption of RhB followed Freundlich's model in all cases. Kinetic studies indicate that the pseudo-second order model can be used for describing the dynamics of the adsorption process. Thermodynamic parameters have also been evaluated, indicating its endothermic and spontaneous nature. Finally, a preliminary analysis of the impact of cellulose content in the carbon precursor materials has been conducted, by using a mixture of native cellulose with one of the lignocellulosic materials.
•Activated carbons have been obtained from carnauba, macauba and pine nut wastes.•Effect of contact time, pH, temperature, adsorbent and dye dose has been assessed.•RhB removal up to 99.85% was attained for carnauba palm leaves-based carbon.•CaCl2 activation leads to better adsorptive capacities than H3PO4 activation.•Dye removal markedly improves when cellulose content is artificially increased.
Full text
Available for:
GEOZS, IJS, IMTLJ, KILJ, KISLJ, NUK, OILJ, PNG, SAZU, SBCE, SBJE, UL, UM, UPCLJ, UPUK