Survival and restoration of China's native forests imperiled by proliferating tree plantations

May 02, 2018

PRINCETON, N.J.--China has implemented some of the world's most ambitious policies to protect and restore forests, yet these programs still miss the mark, according to a team of researchers led by Princeton University.

Using satellite imagery and household interviews, the team looked at how government policies affected land use in southwestern China between 2000 and 2015.

Overall tree cover grew by 32 percent, but the increase mostly came from people turning former croplands into tree plantations with monocultures -- forests with only one type of tree -- which is of little value to wildlife. Likewise, native forests actually decreased by 6 percent because people continued to clear native forests to make way for tree plantations.

Those interviewed said they paid attention to government policies; if a certain type of tree was promoted, they tended to plant that type. Some households simply copied the actions of others in their communities, though this was a small percentage.

The researchers urge the Chinese government to enact policies that more strongly protect existing native forests and facilitate native forest restoration. Natural regeneration, which involves leaving the land alone so the native trees can regrow on their own, has so far been neglected in China's reforestation policies, but it should be encouraged as a legitimate means of forest restoration, they said. This is particularly important as rural land continues to be freed up from crop production in China, often in areas that would be conducive to natural regrowth.

The findings were published in the journal Biological Conservation.

"This cryptic loss of native forest is driven by government policies and economic forces that encourage the planting of trees but fail to take into account what constitutes a bona fide forest," said co-author David Wilcove, professor of ecology and evolutionary biology and public affairs at Princeton's Woodrow Wilson School of Public and International Affairs. "While there are situations where natural regeneration does not make sense, the issue here is that it's never been pursued as a policy prescription for reforestation when, in fact, it could work very well in many areas."

"Profitability plays a significant role in all of this," said co-lead author Fangyuan Hua, who conducted the research as a postdoctoral researcher at Princeton, and is now a Newton International Fellow at the Department of Zoology's Conservation Science Group at the University of Cambridge. "It is clear from our interviews that how much money a household stands to make determines what they'll do with their land. This really highlights the role that proper incentives can play in encouraging more environmentally friendly uses of land, like protecting and restoring native forests."

The researchers investigated tree cover across south-central Sichuan Province, an area that was forested in the past, but went through a period of deforestation that lasted into the 1990s. This region has been part of China's two largest forest conservation programs: the Natural Forest Protection Program, which aims to protect and regenerate forests; and the Grain-for-Green Program, which transforms cropland back to forest. Both programs are expected to last until at least 2020.

The Grain-for-Green Program converted more than 69.2 million acres of cropland and scrubland back to forest up until 2013. Yet the program overwhelmingly leads to the planting of monoculture forests, falling far short of restoring native forests and even harming wildlife, according to past research led by Hua while she was at Princeton.

This remains true, according to Hua's new work, which she co-led with Lin Wang, a research associate at the Chinese Academy of Sciences. The team conducted satellite imagery analysis to identify which types of tree cover had been established across the region.

They also interviewed 166 households involved in the Grain-for-Green Program to understand their choices. Using a combination of multiple-choice and open-ended questions, the team asked residents why they chose to plant a particular tree type, their attitudes about different tree-cover types in terms of environmental benefits, and whether and why they had cleared any native forests.

The households overwhelmingly pointed to the pursuit of profit as a main driver in their decision-making. If they could make money from converting cropland or native forests to plant certain kinds of tree crops, they did. That said, there were some households that didn't clear native forests. Their reasons were again tied to money: They either couldn't afford to clear the forests, didn't have the people to do it, or didn't want to make a profit out of the land.

Many residents also pointed to government encouragement -- on the level of local governments that directly interact with households when it comes to land use -- as a strong factor driving their choices. This was true not only for the type of trees planted under the Grain-for-Green Program, but also to the clearing of native forests for establishing new tree plantations.

As demonstrated in an earlier policy analysis led by Hua, China has incentives that encourage the expansion of tree cover. Unfortunately, these incentives don't differentiate native forests from tree plantations. "This creates a perverse incentive to establish tree plantations and displace native forests, which is precisely what we see here," Wang said.

Hua and Wang suggested the Chinese government devise more robust mechanisms to protect native forests and encourage native forest restoration, including natural regeneration. Of course, natural regeneration takes time, and that unknown time trajectory could be one of the main reasons why reforestation programs opt for active tree planting instead. Nevertheless, the findings provide several insights on how policies could be steered to achieve better environmental gains for the region.
Joining Hua and Wilcove on the paper from Princeton University is Douglas W. Yu, a Princeton alumnus who is affiliated with the Chinese Academy of Sciences. Additional co-authors include Brendan Fisher, University of Vermont; Xinlei Zheng, Sichuan University; Xiaoyang Wang, Chinese Academy of Sciences; Ya Tang, Sichuan University; and Jianguo Zhu, Chinese Academy of Sciences.

The paper, "Tree plantations displacing native forests: The nature and drivers of apparent forest recovery on former croplands in Southwestern China from 2000 to 2015," first appeared online April 10 in Biological Conservation.

Princeton University, Woodrow Wilson School of Public and International Affairs

Related Reforestation Articles from Brightsurf:

Reforestation plans in Africa could go awry
An international team led by an UdeM researcher publishes the findings of a study on the biogeographical history of sub-Saharan Africa.

Surprised researchers: Number of leopards in northern China on the rise
Most of the world's leopards are endangered and generally, the number of these shy and stunning cats is decreasing.

Reforestation can only partially restore tropical soils
Tropical forest soils play a crucial role in providing vital ecosystem functions.

UVA-led team warns negative emissions technologies may not solve climate crisis
A multidisciplinary team led by University of Virginia researchers used the Global Change Assessment Model developed at the University of Maryland to compare the effects of three negative emissions technologies on global food supply, water use and energy demand.

NUS-led study considers potential and constraints of reforestation for climate mitigation
A recent study led by NUS researchers showed that practical considerations, beyond where trees could be planted, may limit the climate change mitigation potential of reforestation.

Native trees thrive in teak plantations and may protect the Panama Canal
Teak often underperforms on poor soils. By planting valuable native trees in existing teak plantations, researchers will evaluate the potential increase in timber value, biodiversity value and ecosystem services provided.

The geological record of mud deposits
The UPV/EHU's HAREA: Coastal Geology research group has conducted a study into how human activities may have influenced the mud depocentres on the Basque shelf, in other words, in the area of the Basque Mud Patch (BMP) on the coast of Gipuzkoa down the ages.

Papers concludes that incentives to afforestation can be harmful to the environment
'Through a counterfactual analysis, we showed that between 1986 and 2011 the incentives to afforestation in Chile caused an increase in forest plantations, but reduced the extent of native forests', explains the main conclusions of the paper Impacts of Chilean forest subsidies on forest cover, carbon and biodiversity, published by the journal Nature Sustainability.

Countries must work together on CO2 removal to avoid dangerous climate change
The Paris Agreement lays out national quotas on CO2 emissions but not removal, and that must be urgently addressed, say the authors of a new study.

Nitrogen-fixing trees help tropical forests grow faster and store more carbon
New research published in Nature Communications shows that the ability of tropical forests to lock up carbon depends critically upon a group of trees that possess a unique talent -- the ability to fix nitrogen from the atmosphere.

Read More: Reforestation News and Reforestation Current Events is a participant in the Amazon Services LLC Associates Program, an affiliate advertising program designed to provide a means for sites to earn advertising fees by advertising and linking to