A Basal Area Increment-Based Approach of Site Productivity Evaluation for Multi-Aged and Mixed Forests

A Basal Area Increment-Based Approach of Site Productivity Evaluation for Multi-Aged and Mixed Forests

Accurate estimates of forest site productivity are essential for environmental planning and forest management. In this study, we developed a new productivity index, hereafter termed basal area potential productivity index (BAPP), to estimate site productivity for irregular and complex forests charac...

Full description

Bibliographic Details
Main Authors: Liyong Fu, Ram P. Sharma, Guangyu Zhu, Haikui Li, Lingxia Hong, Hong Guo, Guangshuang Duan, Chenchen Shen, Yuancai Lei, Yutang Li, Xiangdong Lei, Shouzheng Tang
Format: Article
Language:English
Published: MDPI AG 2017-04-01
Series:Forests
Subjects:
basal area realized productivity
basal area potential productivity
mixed forests
site quality evaluation
Online Access:http://www.mdpi.com/1999-4907/8/4/119
id doaj-d46715778c6747b7bfcaf873d13fcfa0
record_format Article
spelling doaj-d46715778c6747b7bfcaf873d13fcfa02020-11-24T21:18:29ZengMDPI AGForests1999-49072017-04-018411910.3390/f8040119f8040119A Basal Area Increment-Based Approach of Site Productivity Evaluation for Multi-Aged and Mixed ForestsLiyong Fu0Ram P. Sharma1Guangyu Zhu2Haikui Li3Lingxia Hong4Hong Guo5Guangshuang Duan6Chenchen Shen7Yuancai Lei8Yutang Li9Xiangdong Lei10Shouzheng Tang11Research Institute of Forest Resource Information Techniques, Chinese Academy of Forestry, Beijing 100091, ChinaFaculty of Forestry and Wood Sciences, Czech University of Life Sciences Prague, Prague 6, Suchdol 16521, Czech RepublicCollege of Forestry, Central South University of Forestry and Technology, 498 ShaoshanNanlu, Changsha 410004, Hunan, ChinaResearch Institute of Forest Resource Information Techniques, Chinese Academy of Forestry, Beijing 100091, ChinaResearch Institute of Forest Resource Information Techniques, Chinese Academy of Forestry, Beijing 100091, ChinaResearch Institute of Forest Resource Information Techniques, Chinese Academy of Forestry, Beijing 100091, ChinaResearch Institute of Forest Resource Information Techniques, Chinese Academy of Forestry, Beijing 100091, ChinaDepartment of Forest, Rangeland, and Fire Sciences, University of Idaho, Moscow, ID 83844, USAResearch Institute of Forest Resource Information Techniques, Chinese Academy of Forestry, Beijing 100091, ChinaAcademy of Forest Inventory and Planning of Jilin Province, Changchun 130022, Jilin, ChinaResearch Institute of Forest Resource Information Techniques, Chinese Academy of Forestry, Beijing 100091, ChinaResearch Institute of Forest Resource Information Techniques, Chinese Academy of Forestry, Beijing 100091, ChinaAccurate estimates of forest site productivity are essential for environmental planning and forest management. In this study, we developed a new productivity index, hereafter termed basal area potential productivity index (BAPP), to estimate site productivity for irregular and complex forests characterized by multi-aged, multi-species, and multi-layer stands. We presented the biological relevance of BAPP with its computational details. We also compared BAPP against basal area realized productivity (BARP) in order to verify the practicability and reliability of BAPP. Time-series data of the national forest inventory on 1912 permanent sample plots that were located in two main forest types and consisted of oak-dominated mixed forests and other broadleaf forests in northeast China were used to demonstrate the application of BAPP. The results showed that the value of BAPP for each sample plot was larger than or equal to the corresponding BARP value for each forest type. For appropriately managed stands with relatively better site conditions, the values of both BARP and BAPP were almost identical. The values of the difference between BAPP and BARP could therefore be used to effectively assess forest site productivity. Meanwhile, BAPP also provides much reliable and valuable information that can aid decision-making in forest management.http://www.mdpi.com/1999-4907/8/4/119basal area realized productivitybasal area potential productivitymixed forestssite quality evaluation
collection DOAJ
language English
format Article
sources DOAJ
author Liyong Fu
Ram P. Sharma
Guangyu Zhu
Haikui Li
Lingxia Hong
Hong Guo
Guangshuang Duan
Chenchen Shen
Yuancai Lei
Yutang Li
Xiangdong Lei
Shouzheng Tang
spellingShingle Liyong Fu
Ram P. Sharma
Guangyu Zhu
Haikui Li
Lingxia Hong
Hong Guo
Guangshuang Duan
Chenchen Shen
Yuancai Lei
Yutang Li
Xiangdong Lei
Shouzheng Tang
A Basal Area Increment-Based Approach of Site Productivity Evaluation for Multi-Aged and Mixed Forests
Forests
basal area realized productivity
basal area potential productivity
mixed forests
site quality evaluation
author_facet Liyong Fu
Ram P. Sharma
Guangyu Zhu
Haikui Li
Lingxia Hong
Hong Guo
Guangshuang Duan
Chenchen Shen
Yuancai Lei
Yutang Li
Xiangdong Lei
Shouzheng Tang
author_sort Liyong Fu
title A Basal Area Increment-Based Approach of Site Productivity Evaluation for Multi-Aged and Mixed Forests
title_short A Basal Area Increment-Based Approach of Site Productivity Evaluation for Multi-Aged and Mixed Forests
title_full A Basal Area Increment-Based Approach of Site Productivity Evaluation for Multi-Aged and Mixed Forests
title_fullStr A Basal Area Increment-Based Approach of Site Productivity Evaluation for Multi-Aged and Mixed Forests
title_full_unstemmed A Basal Area Increment-Based Approach of Site Productivity Evaluation for Multi-Aged and Mixed Forests
title_sort basal area increment-based approach of site productivity evaluation for multi-aged and mixed forests
publisher MDPI AG
series Forests
issn 1999-4907
publishDate 2017-04-01
description Accurate estimates of forest site productivity are essential for environmental planning and forest management. In this study, we developed a new productivity index, hereafter termed basal area potential productivity index (BAPP), to estimate site productivity for irregular and complex forests characterized by multi-aged, multi-species, and multi-layer stands. We presented the biological relevance of BAPP with its computational details. We also compared BAPP against basal area realized productivity (BARP) in order to verify the practicability and reliability of BAPP. Time-series data of the national forest inventory on 1912 permanent sample plots that were located in two main forest types and consisted of oak-dominated mixed forests and other broadleaf forests in northeast China were used to demonstrate the application of BAPP. The results showed that the value of BAPP for each sample plot was larger than or equal to the corresponding BARP value for each forest type. For appropriately managed stands with relatively better site conditions, the values of both BARP and BAPP were almost identical. The values of the difference between BAPP and BARP could therefore be used to effectively assess forest site productivity. Meanwhile, BAPP also provides much reliable and valuable information that can aid decision-making in forest management.
topic basal area realized productivity
basal area potential productivity
mixed forests
site quality evaluation
url http://www.mdpi.com/1999-4907/8/4/119
work_keys_str_mv AT liyongfu abasalareaincrementbasedapproachofsiteproductivityevaluationformultiagedandmixedforests
AT rampsharma abasalareaincrementbasedapproachofsiteproductivityevaluationformultiagedandmixedforests
AT guangyuzhu abasalareaincrementbasedapproachofsiteproductivityevaluationformultiagedandmixedforests
AT haikuili abasalareaincrementbasedapproachofsiteproductivityevaluationformultiagedandmixedforests
AT lingxiahong abasalareaincrementbasedapproachofsiteproductivityevaluationformultiagedandmixedforests
AT hongguo abasalareaincrementbasedapproachofsiteproductivityevaluationformultiagedandmixedforests
AT guangshuangduan abasalareaincrementbasedapproachofsiteproductivityevaluationformultiagedandmixedforests
AT chenchenshen abasalareaincrementbasedapproachofsiteproductivityevaluationformultiagedandmixedforests
AT yuancailei abasalareaincrementbasedapproachofsiteproductivityevaluationformultiagedandmixedforests
AT yutangli abasalareaincrementbasedapproachofsiteproductivityevaluationformultiagedandmixedforests
AT xiangdonglei abasalareaincrementbasedapproachofsiteproductivityevaluationformultiagedandmixedforests
AT shouzhengtang abasalareaincrementbasedapproachofsiteproductivityevaluationformultiagedandmixedforests
AT liyongfu basalareaincrementbasedapproachofsiteproductivityevaluationformultiagedandmixedforests
AT rampsharma basalareaincrementbasedapproachofsiteproductivityevaluationformultiagedandmixedforests
AT guangyuzhu basalareaincrementbasedapproachofsiteproductivityevaluationformultiagedandmixedforests
AT haikuili basalareaincrementbasedapproachofsiteproductivityevaluationformultiagedandmixedforests
AT lingxiahong basalareaincrementbasedapproachofsiteproductivityevaluationformultiagedandmixedforests
AT hongguo basalareaincrementbasedapproachofsiteproductivityevaluationformultiagedandmixedforests
AT guangshuangduan basalareaincrementbasedapproachofsiteproductivityevaluationformultiagedandmixedforests
AT chenchenshen basalareaincrementbasedapproachofsiteproductivityevaluationformultiagedandmixedforests
AT yuancailei basalareaincrementbasedapproachofsiteproductivityevaluationformultiagedandmixedforests
AT yutangli basalareaincrementbasedapproachofsiteproductivityevaluationformultiagedandmixedforests
AT xiangdonglei basalareaincrementbasedapproachofsiteproductivityevaluationformultiagedandmixedforests
AT shouzhengtang basalareaincrementbasedapproachofsiteproductivityevaluationformultiagedandmixedforests
_version_ 1726008910798651392

Similar Items