ویژگی‌های شاخص خاک و ارزیابی میدانی ساده آن‌ها در جنگل‌ هیرکانی: از خاک تا پوشش گیاهی

نوع مقاله : کوتاه

نویسنده

دانشیار، گروه علوم و مهندسی جنگل، دانشگاه گیلان، رشت، ایران

چکیده

مقدمه: هنگامی‌که مطالعه و بررسی خاک به‌ویژه در عرصه‌‌های جنگلی مطرح باشد، بحث زمان، هزینه‌‌ها و سختی کار، اهمیت ویژه‌ای پیدا می‌کند. واقعیت آن است که برای دستیابی به نتایج دقیق و قابل‌اتکا در ارزیابی خاک، این ملاحظات اجتناب‌ناپذیرند. در عین حال، افرادی که در عرصه‌‌های طبیعی فعالیت می‌کنند، به‌دنبال روش‌‌هایی هستند که در عین دقت قابل‌قبول، سهولت لازم و هزینه‌‌های کمتری را به‌همراه داشته باشند. هدف اصلی مقاله پیش‌رو، مبتنی‌بر همین رویکرد است. یعنی شناسایی و معرفی آن دسته از ویژگی‌های خاک که بتوانند با دقتی قابل‌قبول، اطلاعات ضروری برای درک عملکردها و وظایف خاک در عرصه‌های جنگلی را فراهم کنند. در ادامه، روش‌هایی معرفی خواهند شد که سنجش این ویژگی‌ها را به‌صورت میدانی، با سهولت و صرف هزینه کمتر ممکن می‌کند.
بدنه: در علم خاک‌شناسی، ویژگی‌های خاک به‌طور معمول در سه دسته‌ی اصلی فیزیکی، شیمیایی و زیستی طبقه‌بندی می‌شوند. در هریک از این گروه‌ها، مجموعه‌ای از ویژگی‌ها وجود دارند که می‌توانند به‌طور مؤثری ماهیت و نقش عملکردی خاک را تبیین کنند. براساس پژوهش‌های متعدد، برخی از این ویژگی‌ها به‌عنوان «شاخص» قابل‌شناسایی هستند. به این معنا که از یک‌سو، خود نماینده عملکردهای خاک‌ هستند و از سوی دیگر با بسیاری از ویژگی‌های دیگر، رابطه آماری و بوم‌شناختی دارند. بافت خاک و فشردگی خاک از میان ویژگی‌‌های فیزیکی، مواد آلی و اسیدیته خاک از میان ویژگی‌‌های شیمیایی که تاحدی می‌‌توانند به‌عنوان معرف ویژگی‌‌های زیستی و تغذیه‌‌ای خاک نیز مطرح باشد، را می‌توان به‌عنوان ویژگی‌‌‌‌های شاخص در سه گروه یادشده به‌ویژه در خاک‌‌های جنگلی معرفی کرد. اگرچه مقدار این ویژگی‌‌های شاخص می‌‌‌تواند در آزمایشگاه و به‌طور دقیق تعیین شود، اما می‌‌توان با امکان‌پذیرترین روش‌‌ها در عرصه جنگلی نیز آن‌ها را اندازه‌‌گیری کرد. در کنار ویژگی‌‌های خاک، موضوع بسیار مهم دیگر در بررسی خاک‌‌های جنگلی و در اصل در بوم‌سازگان‌‌‌های جنگلی، توجه به مجموعه پوشش‌‌های رستنی از گونه‌‌های علفی کف تا درختان است. توجه و شناخت مناسب از این گیاهان و نیاز آن‌ها و ظهور و عدم حضورشان در مناطق مختلف، آیینه‌‌ای از ویژگی‌‌های خاک و اجزای دیگر بوم‌سازگان‌ جنگلی می‌‌‌تواند باشد.
جمع‌بندی: افرادی که در طبیعت و به‌ویژه در جنگل مشغول به‌کار هستند، همواره به‌دنبال روش‌هایی هستند که علاوه‌بر دقت قابل‌قبول، در زمان و هزینه‌ها نیز صرفه‌جویی داشته باشند. این موضوع شاید در بررسی و مطالعه خاک‌های جنگلی، که با هزینه‌ها و دشواری بیشتری همراه است، بیشتر مورد توجه قرار گیرد. نگاه دقیق به جنگل و شناخت عمیق پوشش گیاهی موجود در آن می‌تواند مبنایی مناسب برای دستیابی به اهداف فوق قرار گیرد. در عین حال، برای پژوهشگران، مدیران و کارشناسان جنگل که به بررسی خاک جنگل می‌پردازند، آگاهی از ویژگی‌های کلیدی مانند بافت، چگالی، فشردگی، نوع و میزان ماده آلی و اسیدیته خاک که بتوان آن‌ها را با روش‌های ساده‌تر تعیین کرد، راهکاری مناسب برای صرفه‌جویی در زمان و هزینه‌ها است که باید به آن توجه کافی داشته باشند.
 
 

کلیدواژه‌ها

موضوعات

عنوان مقاله [English]

Key soil properties and their simple field assessment in the Hyrcanian forest, Iran: From soil to vegetation

نویسنده [English]

  • Ali Salehi
Associate Prof., Department of Forest Science & Engineering, University of Guilan, Rasht, Iran
چکیده [English]

Introduction: In general, when the study and analysis of soil particularly in forested areas is discussed, issues such as time, cost, and the complexity of the work readily come to mind. The reality is that a thorough and well-planned assessment of soil inevitably involves these challenges. Nevertheless, all individuals engaged in natural ecosystems seek methods that, while maintaining an acceptable level of accuracy, are also cost-effective and relatively easy to implement. The main objective of this paper is based on this very idea: to identify, among the many characteristics of soil, those primary properties that can effectively provide meaningful information regarding the functions and roles of soil in forest ecosystems. Once these key properties are identified, the secondary aim of this paper is to introduce methods for measuring these properties in the field that are affordable, practical, and sufficiently accurate for use in forest environments.
Main structure: In soil science, soil behaviors and properties are typically categorized into three main groups: physical, chemical, and biological characteristics. Naturally, each of these groups encompasses a wide range of attributes that, individually or collectively, can describe the nature and functions of soil in greater detail. Based on extensive scientific and empirical studies, certain properties within each group stand out due to their greater significance. These key indicators not only reflect the soil's performance more effectively, but they also exhibit strong correlations with many other soil characteristics. As such, measuring these indicators can often allow for the estimation of several other soil attributes. Among physical properties, soil texture and soil compaction are considered key; among chemical properties, organic matter content and soil pH stands out, which also has relevance as a biological indicator and soil nutrients. These characteristics are particularly important in forest soils. Although the accurate measurement of these key soil properties is best carried out in a laboratory setting, it is also possible to estimate them in forest environments using more accessible and feasible field methods. In addition to these soil characteristics, another critical aspect of forest soil assessment and indeed of forest ecosystems as a whole is the evaluation of vegetative cover, ranging from herbaceous ground flora to the trees that populate the forest stand. A thorough understanding of these plant species, their ecological requirements, and their presence or absence across different sites can serve as a reflection of soil conditions and other ecosystem components.
Conclusion: All professionals working in natural areas, particularly forests, consistently seek methods that combine reasonable accuracy with savings in time and cost. This need is especially pressing when studying forest soils, which are often associated with higher levels of complexity and expense. A close examination of forest vegetation regarded as a mirror of the entire ecosystem offers a strategic pathway toward achieving these goals. At the same time, for researchers, managers, and forest specialists conducting soil assessments, understanding key properties such as soil texture, bulk density, compaction, soil pH, and organic matter content and identifying ways to evaluate them using simpler techniques can offer a practical solution for conserving resources while still acquiring reliable data.
 
Keywords: Soil compaction, soil density, soil organic matter, soil pH, soil texture, vegetation cover.
 

کلیدواژه‌ها [English]

  • Soil compaction
  • soil density
  • soil organic matter
  • soil pH
  • soil texture
  • vegetation cover

مراجع

- Agricultural Research, Education and Extension Organization (AREEO), 2024. Tariff of services provided by the Research Institute of Forests and Rangelands (RIFR) in 2024. Research Institute of Forests and Rangelands, Tehran, Iran, 24p (In Persian).
- Ahmadi, T. and Sheikhulislami, A., 2004. The role of soil physical and chemical properties in pure stands of oak ( Quercus castaneifolia ) in Galandroud forest ( west Mazandran state ). Pajouhesh and Sazandegi, 63: 59-69 (In Persian with English summary).
- Ellenberg, H., 1988. Vegetation Ecology of Central Europe, Fourth Edition. Cambridge University Press, Cambridge, England, 731p.
- Eremeev, V., Talgre, L., Kuht, J., Mäeorg, E., Esmaeilzadeh-Salestani, K., Alaru, M., … and Luik, A., 2020. The soil microbial hydrolytic activity, content of nitrogen and organic carbon were enhanced by organic farming management using cover crops and composts in potato cultivation. Acta Agriculturae Scandinavica, Section B — Soil and Plant Science, 70(1): 87-94.
- Eshaghi Rad, J., Zahedi Amiri, Gh., Marvi Mohajer, M.R. and Mataji, A., 2009. Relationship between vegetation and physical and chemical properties of soil in Fagetum communities (Case study: Kheiroudkenar forest). Iranian Journal of Forest and Poplar Research, 17(2): 174-187 (In Persian with English summary).
- Food and Agriculture Organization of the United Nations (FAO), 2006. Guidelines for Soil Description, Fourth Edition. FAO, Rome, Italy, 109p.
- Gholamhossein, M., Mataji, A., Eshaghi Rad, J. and Salinpour, F., 2015. Investigation of possibility of fern application as a bioindicator of site condition in north of Iran (case study: Kheiroudkenar Noshahr). Iranian Journal of Environmental Science and Technology, 16: 367-378 (In Persian with English summary).
- Grigal, D.F. and Vance, E.D., 2000. Influence of soil organic matter on forest productivity. New Zealand Journal of Forestry Science, 30(1/2): 169-205.
- Hashemi, M., Nikooy, M., Salehi, A. and Naghdi, R., 2021. Investigation of soil physical properties 11 years after water-bar construction on skid trail. Journal of Forest Research and Development, 7(2): 169-182 (In Persian with English summary).
- Hazbavi, Z. and Sadeghi, S.H.R., 2016. Introducing Visual Soil Assessment (VSA) method. Extension and Development of Watershed Management, 4(13): 15-25 (In Persian with English summary).
- Jafari, M. and Rostampour, M., 2018. Soil-Plant Relationships: Ecology, Statistics and Analysis. University of Tehran Press, Tehran, Iran, 468p (In Persian).
- Jourgholami, M., Rizvandi, V. and Majnounian Garagiz, B., 2013. Effects of forest harvesting operations on physical properties and soil penetration resistance (Case study: Kheyrud forest). Journal of Range and Watershed Management, 66(2): 223-236 (In Persian with English summary) .
- Kooch, Y., 2025. Soil Ecosystem: Principles and Management. Jahad-e Daneshgahi of Mazandaran Press, Sari, Iran, 489p (In Persian).
- Liu, Y., Wu, X., Wu, T., Zhao, L., Li, R., Li, W., … and Yan, X., 2022. Soil texture and its relationship with environmental factors on the Qinghai–Tibet Plateau. Remote Sensing, 14(15): 3797.
- Lull, C., Gil-Ortiz, R., Bautista, I. and Lidón, A., 2023. Seasonal variation and soil texture-related thinning effects on soil microbial and enzymatic properties in a semi-arid pine forest. Forests, 14(8): 1674.
- Mataji, A. and Sagheb-Talebi, Kh., 2007. Development stages and dynamic of two oriental beech (Fagus orientalis) communities at natural forests of Kheiroudkenar-Noshahr. Iranian Journal of Forest and Poplar Research, 15(4): 398-416 (In Persian with English summary).
- Meshki, A. and Kianian, M.K., 2014. Ecology and Management of Forest Soils (translation). Semnan University Press, Semnan, Iran, 600p (In Persian).
- Moridpour, A., Namiranian, M., Alavi, S.J. and Etemad, V., 2023. Identifying the most important factors affecting the distribution of Ash (Fraxinus excelsior L.) and detect potential habitats areas in Kherudkanar Nowshahr forest. Iranian Journal of Forest, 15: 69-85 (In Persian with English summary).
- Murphy, B.W., 2014. Soil organic matter and soil function – Review of the literature and underlying data: Effects of soil organic matter on functional soil properties. Department of the Environment, Canberra, Australia, 155p.
- Mutuku, E.A., Vanlauwe, B., Roobroeck, D., Boeckx, P. and Cornelis, W.M., 2021. Visual soil examination and evaluation in the sub-humid and semi-arid regions of Kenya. Soil and Tillage Research, 213: 105135.
- Pavand Derow, A., Salehi, A., Pourbabaei, H. and Alavi, S.J., 2015. Relation between establishment and distribution of Acer velutinum Boiss. with soil physical and chemical properties and topographic factors in Caspian forest: a case study of Nav Asalem district/ Guilan province. Journal of Plant Research, 27(4): 520-533 (In Persian with English summary).
- Pordel, N., Hosseinzadeh, J., Heydari, M. and Omidipour, R., 2025. Assessment of aggregate stability in relation to physiographic characteristics and canopy density in the Zagros Forests, Iran. Iranian Journal of Forest and Poplar Research, 33(3): 191-206 (In Persian with English summary).
- Pourbabaei, H., Salehi, A., Ebrahimi, S.S. and Khodaparast, F., 2020. Variations of soil physicochemical properties and vegetation cover under different altitudinal gradient, western Hyrcanean forest, north of Iran. Journal of Forest Science, 66(4): 159-169.
- Riestra, D., Noellemeyer, E. and Quiroga, A., 2012. Soil texture and forest species condition the effect of afforestation on soil quality parameters. Soil Science, 177(4): 279-287.
- Ruehlmann, J., 2020. Soil particle density as affected by soil texture and soil organic matter: 1. partitioning of SOM in conceptional fractions and derivation of a variable SOC to SOM conversion factor. Geoderma, 375: 114542.
- Salehi, A., Taheri Abkenar, K. and Basiri, R., 2012. Study of the recovery soil physical properties and establishment of natural regeneration in skid trails (case study: Nav-e Asalem forests). Iranian Journal of Forest, 3(4): 317-329 (In Persian with English summary).
- Salehi, A., Zahedi Amiri, Gh., Burslem, D.F.R.P. and Swaine, M.D., 2007. Relationships between tree species composition, soil properties and topographic factors in a temperate deciduous forest in northern Iran. Asian Journal of Plant Sciences, 6(3): 455-462.
- Shahouei, S., 2006. The Nature and Properties of Soils (translation). University of Kurdistan Press, Sanandaj, Iran, 884p (In Persian).
- Shepherd, G., Stagnari, F., Pisante, M. and Benites, J., 2008. Visual Soil Assessment. Food and Agriculture Organization of the United Nations (FAO), Rome, Italy, 405p.
- Tian, B.G., Cheng, Q., Tang, C.S., Zeng, H., Xu, J.J. and Shi, B., 2022. Effects of compaction state on desiccation cracking behaviour of a clayey soil subjected to wetting-drying cycles. Engineering Geology, 302: 106650.
- Vasu, D., Tiwary, P. and Chandran, P., 2024. A novel and comprehensive soil quality index integrating soil morphological, physical, chemical, and biological properties. Soil and Tillage Research, 244: 106246.
- Zhou, J., Sun, T., Shi, L., Kurganova, I., Lopes de Gerenyu, V., Kalinina, O., … and Kuzyakov, Y., 2023. Organic carbon accumulation and microbial activities in arable soils after abandonment: A chronosequence study. Geoderma, 405: 116496.

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