Afforestation of the Biosphere Reserve of Iraq with Norway Spruce (Picea abies) and Austrian Pine (Pinus nigra) Seedlings: a Quantitative and Qualitative Study
Subject Areas : Abiotic stress physiologyKuanysh Syman 1 , Ammar Dham 2 , Hussein S.H. Ridha 3 , Ahmed Hazem Salem 4 , Hayder Abdullah Talib 5 , Sarah Jaafar Saadoon 6 , Abdulbary Amin Mahuop Ahmed 7
1 - Institute of Natural Sciences and Geography, Abai Kazakh National pedagogical university, Almaty, Kazakhstan
13, Dostyk Av., 050010 Almaty, the Republic of Kazakhstan
2 - College of education, Medical Lab techniques, Al-Farahidi University, Iraq
3 - Department of Medical Laboratories Technology, AL-Nisour University College, Baghdad, Iraq
4 - Department of Radiology & Sonar Techniques, AlNoor University College, Nineveh, Iraq
5 - National University of Science and Technology, Dhi Qar, Iraq
6 - College of Pharmacy, Al-Ayen University, Thi-Qar, Iraq
7 - Assistant professor of Biology, Institute of Medicine, People’s Friendship University of Russia, Russia
Keywords: Pinus nigra, Biosphere reserve of Iraq, Picea abies,
Abstract :
In the western Iranian provinces of Kurdistan and Kermanshah as well as the northern Kurdistan Region of Iraq, there is a hilly terrain called Hawraman. It’s called the biosphere reserve of Iraq due to its high biodiversity. In this study, the planting of saplings of the Norway spruce (Picea abies) and Austrian pine (Pinus nigra) species was investigated quantitatively and qualitatively using 20 square sample plots with measurements of 12×12 meters that were randomly chosen in the selection area. The diameter of the collar, the overall height, the freshness of the seedlings, and the survival indicators were evaluated and measured in each sample plot. Picea abies outperformed Pinus nigra in terms of diameter and height, according to a statistical comparison between the two species in the same direction and slope (Picea abies: 1.34 cm and 0.32 m, Pinus nigra: 0.71 cm and 0.21 m). There was no significant difference in the percentage of survival between the two species. In terms of freshness, a comparison of these two species revealed that the Picea abies species had a higher level of freshness than the Pinus nigra species.
Aboutalebi Jahromi A, Hosseini Farahi M (2016) Seed germination, vegetative growth and concentration of some elements in French marigold (Tageta patula) as influenced by salinity and ammonium nitrate. International Journal of Horticultural Science and Technology. 3, 199-209.
Aryal JP, Sapkota TB, Khurana R, Khatri-Chhetri A, Rahut DB, Jat ML (2020) Climate change and agriculture in South Asia: Adaptation options in smallholder production systems. Environment, Development and Sustainability. 22, 5045–5075.
Asgarzadeh M, Vahdati K, Lotfi M, Arab M, Babaei A, Naderi F, Soufi MP, Rouhani G (2014) Plant selection method for urban landscapes of semi-arid cities (a case study of Tehran). Urban Forestry & Urban Greening. 13, 450–458.
Biglari F, Shidrang S (2019) Rescuing the Paleolithic Heritage of Hawraman, Kurdistan, Iranian Zagros. Near Eastern Archaeology. 82, 226–235.
Cankar K, Kraigher H, Ravnikar M, Rupnik M (2005) Bacterial endophytes from seeds of Norway spruce (Picea abies L. Karst). FEMS Microbiology Letters. 244, 341–345.
Coates TA (2017) Forest management in coastal pine forests: an investigation of prescribed fire behavior, detrital chemical composition, and potential water quality impacts. PhD Thesis. Clemson University.
Dhaundiyal A, Singh SB, Atsu D, Toth L (2021) Comprehensive analysis of pre-treated Austrian pine. Fuel 287, 119605.
Dincă L, Murariu G, Iticescu C, Budeanu M, Murariu A (2019) Norway spruce (Picea abies (L.) Karst.) smart forests from the southern Carpathians. International Journal of Conservation Science. 10, 781–790.
Dutra DJ, Elmiro MA, Ribeiro S (2022) Association between forest resources and water availability: temporal analysis of the Serra Azul stream sub-basin. Anais Da Academia Brasileira de Ciências 94.
Faiku F, Haziri A, Gashi F, Troni N, Faiku H (2015) Total lipids, proteins, minerals and essential oils of Pinus nigra Arnold and Pinus sylvestris growing wild in Kosovo. Lipids. 7, 0 – 313.
Forrester DI, Ammer C, Annighöfer PJ, Barbeito I, Bielak K, Bravo-Oviedo A, Coll L, del Río M, Drössler L, Heym M (2018) Effects of crown architecture and stand structure on light absorption in mixed and monospecific Fagus sylvatica and Pinus sylvestris forests along a productivity and climate gradient through Europe. Journal of Ecology. 106, 746–760.
Halmemies ES, Alén R, Hellström J, Läspä O, Nurmi J, Hujala M, Brännström HE (2022) Behaviour of Extractives in Norway Spruce (Picea abies) Bark during Pile Storage. Molecules. 27, 1186.
Harpold AA, Molotch NP, Musselman KN, Bales RC, Kirchner PB, Litvak M, Brooks PD (2015) Soil moisture response to snowmelt timing in mixed-conifer subalpine forests. Hydrological Processes. 29, 2782–2798.
Hazubska-Przyby lT, Kalemba EM, Ratajczak E, Bojarczuk K (2016) Effects of abscisic acid and an osmoticum on the maturation, starch accumulation and germination of Picea spp. somatic embryos. Acta Physiologiae Plantarum. 38, 1–14.
Igiebor FA, Asia M, Ikhajiagbe B (2023) Green nanotechnology: a modern tool for sustainable agriculture – a review. International Journal of Horticultural Science and Technology. 10, 269-286.
Kalinin AA (2022) The Traversing of Water Barriers by Small Mammals in the Forest Zone: Quantitative Characteristics. Biology Bulletin. 49, 1543–1551.
Kolevska DD, Dimitrova A, Cokoski K, Basova M (2020) Growth and quality of Pinus nigra (Arn.), Pinus sylvestris (L.) and Pinus pinaster (Aiton) seedlings in two container types. Reforesta. 21–36.
Krisans O, Matisons R, Rust S, Burnevica N, Bruna L, Elferts D, Kalvane L, Jansons A (2020) Presence of root rot reduces stability of Norway spruce (Picea abies): Results of static pulling tests in Latvia. Forests. 11, 416.
Kumar H, Pandey BW, Anand S (2019) Analyzing the impacts of forest ecosystem services on livelihood security and sustainability: a case study of Jim Corbett National Park in Uttarakhand. International Journal of Geoheritage and Parks. 7, 45–55.
Lučinskaitė I, Laužikė K, Žiauka J, Baliuckas V, Čėsna V, Sirgedaitė-Šėžienė V (2021) Assessment of biologically active compounds, organic acids and antioxidant activity in needle extracts of different Norway spruce (Picea abies (L.) H. Karst) half-sib families. Wood Science and Technology. 55, 1221–1235.
Mahmoudi Meymand MJ, Ruffoni B, Mascarello C, Savona M, Shamshiri MH, Malekzadeh K (2022) In vitro Culture of Immature Embryos of Mastic Tree (Pistacia lentiscus L.). Journal of Nuts. 13, 1–10.
Makheti Mutebi C (2022) Mulberry (Morus spp) as a plant for building the resilience of smallholder farmers during climate change and COVID 19 pandemic. International Journal of Horticultural Science and Technology. 9, 73-83.
Malindzakova M, Malindzak jr D, Garaj P (2021) Economic-statistical Evaluation of Sustainable Development of Forest Trees. TEM Journal. 10, 1319.
Malvar MC, Silva FC, Prats SA, Vieira DC, Coelho CO, Keizer JJ (2017) Short-term effects of post-fire salvage logging on runoff and soil erosion. Forest Ecology and Management. 400, 555–567.
Mensah NO, Anaman R, Nyarko-Fordjour K, Afotey Anang S, Donkor A, Twintoh J (2021) Creating Sustainable Income through the Cashew Nuts Value Chain (Evidence from Ghana). Journal of Nuts. 12, 253–271.
Muhamed H, Youssef S, Mustafa A, Suliman H, Abdulqader A, Mohammed H, Michalet R (2019) Natural regeneration of Pinus brutia Ten. in a recreational public forest in Zawita-Kurdistan region, Iraq. Journal of Forestry Research. 30, 1849–1857.
Munanura IE, Kline JD (2022) Residents’ support for tourism: The role of tourism impact attitudes, forest value orientations, and quality of life in Oregon, United States. Tourism Planning & Development. 1–17.
Pfeiffer M, Kuestner G, Erdenesukh E, von Tümpling W, Hofmann J (2021) Investigation of environmental and land use impacts in forested permafrost headwaters of the Selenga-Baikal river system, Mongolia-Effects on discharge, water quality and macroinvertebrate diversity. International Soil and Water Conservation Research. 9, 605–619.
Ruiz-Peinado R, Pretzsch H, Löf M, Heym M, Bielak K, Aldea J, Barbeito I, Brazaitis G, Drössler L, Godvod K (2021) Mixing effects on Scots pine (Pinus sylvestris L.) and Norway spruce (Picea abies (L.) Karst.) productivity along a climatic gradient across Europe. Forest Ecology and Management. 482, 118834.
Storch F, Dormann CF, Bauhus J (2018) Quantifying forest structural diversity based on large-scale inventory data: a new approach to support biodiversity monitoring. Forest Ecosystems. 5, 1–14.
Sun W, Song X, Mu X, Gao P, Wang F, Zhao G (2015) Spatiotemporal vegetation cover variations associated with climate change and ecological restoration in the Loess Plateau. Agricultural and Forest Meteorology. 209, 87–99.
Theophilus MNM (2019) History of economic development and forest land-use in the Fako-Meme forest region of Cameroon. Journal of Geology, Geography and Geoecology. 28, 572–580.
Vahdati K, Bavani AR, Khosh-Khui M, Fakour P, Sarikhani S (2019) Applying the AOGCM-AR5 models to the assessments of land suitability for walnut cultivation in response to climate change: A case study of Iran. PloS ONE. 14(6), e0218725.
Woo H, Han H, Cho S, Jung G, Kim B, Ryu J, Won HK, Park J (2020) Investigating the optimal location of potential forest industry clusters to enhance domestic timber utilization in South Korea. Forests. 11, 936.
Xi Q, Lai W, Cui Y, Wu H, Zhao T (2019) Effect of yeast extract on seedling growth promotion and soil improvement in afforestation in a semiarid chestnut soil area. Forests. 10, 76.
Zarei M, Salehi H, Jowkar A (2017) Effects of temperature and season on in vitro establishment and shoot multiplication of Picea abies (L.) H. Karst. International Journal of Horticultural Science and Technology. 4, 51–56.
Zhang L, Wang J, Bai Z, Lv C (2015) Effects of vegetation on runoff and soil erosion on reclaimed land in an opencast coal-mine dump in a loess area. Catena. 128, 44–53.